CN104061641B - Multi-cycle indirect evaporative cold water supply device and cold water production method - Google Patents

Abstract

The invention relates to the technical fields of heating, ventilating and air conditioning and energy conservation, in particular to a multi-cycle indirect evaporative cold water supply device and a cold water production method. The multi-cycle indirect evaporative cold water supply device comprises at least two cycle cold water supply devices, wherein the first cycle cold water supply device comprises a first surface air cooler, a first housing, a first evaporation refrigeration filler, a first sprinkler and a first cycle water tank; the first housing is provided with a first air inlet port; the water outlet of the first cycle water tank is connected with a first water supply pipe with a first circulating pump; the water inlet of the first sprinkler is connected with a first water return pipe. The multi-cycle indirect evaporative cold water supply device is reasonable in structure and convenient to use; by combining the second cycle cold water supply device with the first cycle cold water supply device, the height of the device can be effectively lowered; the cold energy utilization of the device can be remarkably improved; the multi-cycle indirect evaporative cold water supply device has the characteristics of being high in energy efficiency ratio, wide in field of use, economical, energy-saving, efficient and environment-friendly.

Description

Multi cycle indirect-evaporation cooling water installations and its cold water preparation method

Technical field

The present invention relates to HVAC and field of energy-saving technology, it is a kind of multi cycle indirect-evaporation cooling water installations and its cold Water preparation method.

Background technology

In the presence of having water source, there is the ability of external workmanship in dry air due to being in undersaturated condition, therefore will The ability that dry air is externally done manual work is referred to as dry air energy；Contain abundant dry air energy in China, by using dry air Can refrigeration be to can achieve dry air energy utilization rate highest mode at present, when freezing using dry air with traditional refrigeration phase Ratio has obvious advantage；In traditional refrigeration system, both vapor compression handpiece Water Chilling Units are used electric power as driving source, absorption cold Water dispenser group adopts natural gas or steam as driving source, and dry air can freeze and uses free, cleaning in handpiece Water Chilling Units Reproducible dry air, hardly can disappear in addition to a small amount of blower fan, pump energy consumption in this refrigeration cooling-water machine as driving source The conventional fossil energy of consumption, the high ratio of efficiency of unit or energy efficiency coefficient are high；In addition, unit does not adopt any traditional fluorine profit The cold-producing mediums such as high or lithium bromide, do not result in depletion of the ozone layer and cause greenhouse effect.

The device of existing indirectly evaporating cold supply can prepare the height in civilian or public building required for air conditioning system Warm cold water, very extensive in the xeothermic area application of China, but during practical application, for some buildings not Be suitable for: first, device height size is larger, in order to maximum utilization equipment refrigerating capacity and improve its Energy Efficiency Ratio, equipment cold But filler is all higher, and the height having thus resulted in equipment is also higher；Second, require not being too low in some leaving water temperatures Place, can not be completely utilized using the cold that equipment can cause its preparation, cause the waste in cold energy source.

Content of the invention

The invention provides a kind of multi cycle indirect-evaporation cooling water installations and its cold water preparation method, overcome above-mentioned existing There is the deficiency of technology, the device height size that its energy effectively solving existing indirectly evaporating cold supply device exists is larger, cold is sharp With rate relatively low, there is cold energy waste.

One of technical scheme is realized by following measures: a kind of multi cycle indirect-evaporation cooling water dress Put, supply water-cooling device including the circulation including no less than two, wherein first circulation for water-cooling device include the first surface cooler, One housing, the first sweat cooling filler, the first spray equipment and first circulation water tank, the first housing is provided with the first air intake Mouthful, the outlet of first circulation water tank is connected with the first feed pipe with first circulation pump, and the water inlet of the first spray equipment is even It is connected to the first return pipe；Second circulation for water-cooling device include the second housing, the second sweat cooling filler, the second spray equipment and Second circulation water tank, the second housing is provided with the second air intake port；First air intake port is provided with the first surface cooler, the first table The water inlet of cooler is communicated with the outlet of second circulation water tank by the second feed pipe with second circulation pump, and the first table is cold The outlet of device is communicated with the water inlet of the second spray equipment by the second return pipe.

Further optimization and/or improvements to foregoing invention technical scheme one of are presented herein below:

It is communicated with first user heat-exchange end between first feed pipe and the first return pipe.

Described circulation also includes second user heat-exchange end for water-cooling device, and second user heat-exchange end includes second user low temperature Heat exchanging segment and second user high-temperature heat transfer section；The water inlet of second user low-temperature heat exchange section passes through second user low-temperature zone feed pipe Communicate with the outlet of the first feed pipe, the outlet of second user low-temperature heat exchange section pass through second user low-temperature zone return pipe with The water inlet of the first spray equipment communicates；The water inlet of second user high-temperature heat transfer section pass through second user high temperature section feed pipe with The outlet of the second feed pipe communicates, and the outlet of second user high-temperature heat transfer section passes through second user high temperature section return pipe and the The water inlet of two spray equipments communicates.

Above-mentioned first spray equipment is located at the top of the first sweat cooling filler, and first circulation water tank is located at the first evaporation system The lower section of cold filling；Second spray equipment is located at the top of the second sweat cooling filler, and second circulation water tank is located at the second evaporation The lower section of refrigeration filler；First housing is provided with the first air draft port, and the second housing is provided with the second air draft port, in second row Wind port and the first air draft port are provided with exhaust blower.

Said first shell and the second housing are connected as a single entity, and the first air draft port and the second air draft port are detached two The exhaust outlet end of exhaust outlet end or an entirety.

Above-mentioned second air intake port is provided with the 3rd surface cooler, the second return pipe include second return pipe the first pipeline section and Second return pipe the second pipeline section, the water inlet of the 3rd surface cooler passes through the water outlet of second return pipe the first pipeline section and the first surface cooler Mouth communicates, and the outlet of the 3rd surface cooler is communicated with the water inlet of the second spray equipment by second return pipe the second pipeline section.

Above-mentioned second air intake port is provided with the 4th surface cooler, the first return pipe include first return pipe the first pipeline section and First return pipe the second pipeline section, the water inlet of the 4th surface cooler passes through first return pipe the first pipeline section and first user heat-exchange end Outlet communicates, and the outlet of the 4th surface cooler passes through the water inlet phase of first return pipe the second pipeline section and the first spray equipment Logical.

The air inlet of above-mentioned 4th surface cooler is provided with the 5th surface cooler, and the second return pipe includes the second return pipe first Pipeline section and second return pipe the second pipeline section, the water inlet of the 5th surface cooler passes through second return pipe the first pipeline section and the first surface cooler Outlet communicate, the outlet of the 5th surface cooler passes through the water inlet phase of second return pipe the second pipeline section and the second spray equipment Logical.

6th surface cooler is installed between above-mentioned first surface cooler and the first air intake port, the water inlet of the 6th surface cooler leads to The outlet crossing pipeline with the first feed pipe communicates, and the outlet of the 6th surface cooler passes through the water inlet of pipeline and the first return pipe Communicate.

Described circulation also includes the 3rd user's heat-exchange end, the water inlet of the 3rd user's heat-exchange end and the second confession for water-cooling device The outlet of water pipe communicates, and the outlet of the 3rd user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

Described circulation also includes the 3rd circulation for water-cooling device and supplies water-cooling device and the second surface cooler, in the second air intake port Place is provided with the second surface cooler, and the 3rd circulation includes the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, 3rd water-cooling device housing is provided with the 3rd air intake port and the 3rd water-cooling device exhaust outlet end, peace in the 3rd water-cooling device housing Equipped with the 3rd sweat cooling filler, the top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, the 3rd sweat cooling filler Lower section be provided with the 3rd cyclic water tank, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, The air outlet of three sweat cooling fillers is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank passes through to carry 3rd feed pipe of the 3rd circulating pump is communicated with the water inlet of the second surface cooler, and the outlet of the second surface cooler passes through the 3rd backwater The water inlet of Guan Yu tri- spray equipment communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

The two of technical scheme are realized by following measures: one kind adopts above-mentioned multi cycle indirect evaporation Cold water preparation method for water-cooling device, comprising: outdoor wind enters second circulation and supplies water-cooling device, supplies cold water to fill in second circulation The shower water spraying with the second spray equipment in the second sweat cooling filler put occurs caloic to exchange, and the high temperature cold water of preparation falls Enter second circulation water tank, the high temperature cold water in second circulation water tank flows back into the second spray equipment after the first surface cooler and formed Circulation, the first surface cooler makes entrance first circulation supply the outdoor air cooling of water-cooling device, and cooled rear chamber exogenous wind enters first and follows Ring supplies water-cooling device, supplies the spray with the first spray equipment ejection in the first sweat cooling filler of water-cooling device in first circulation Water occurs caloic to exchange, and the low-temperature cold water of preparation falls into first circulation water tank, by the low-temperature cold water supply in first circulation water tank First user heat-exchange end uses, and takes away the backwater after first user heat-exchange end heat and flows back into the first spray equipment formation circulation.

To foregoing invention technical scheme two further optimization and/or improvements are presented herein below:

3rd surface cooler is set in above-mentioned second air intake port, takes away the backwater after the first surface cooler heat and first pass through the Three surface coolers, make the outdoor air cooling by the 3rd surface cooler, and the current through the 3rd surface cooler return to the second spray dress afterwards In putting.

4th surface cooler is set in above-mentioned second air intake port, takes away the elder generation of the backwater after first user heat-exchange end heat warp Cross the 4th surface cooler, make the outdoor air cooling by the 4th surface cooler, the current through the 4th surface cooler return to the first spray afterwards In shower device.

5th surface cooler is set in the air inlet of above-mentioned 4th surface cooler, takes away the backwater after the first surface cooler heat first Through the 5th surface cooler, make the outdoor air cooling by the 5th surface cooler, the outdoor wind after cooling passes through quilt during four surface coolers Cool down and send into second circulation further and supply water-cooling device, the current through the 5th surface cooler return to the second spray equipment afterwards Interior.

6th surface cooler is set between above-mentioned first surface cooler and the first air intake port, and second circulation supplies water-cooling device system Standby low-temperature cold water part supply first user heat-exchange end uses, and part supply the 6th surface cooler uses, cold through the first table Outdoor wind after device cooling is cooled down further by the 6th surface cooler and sends into first circulation and supplies water-cooling device, takes away the first use afterwards Backwater after family heat-exchange end and the 6th surface cooler heat flow back in the first spray equipment.

By arranging the 3rd user's heat-exchange end, the high temperature cold water part that above-mentioned second circulation is supplied water-cooling device preparation supplies Use to the first surface cooler, part supply the 3rd user's heat-exchange end uses, and takes away the first surface cooler afterwards and the 3rd user changes Backwater after the heat of hot junction flow back in the second spray equipment.

Supply water-cooling device by arranging the 3rd circulation, the second surface cooler, outdoor wind are set in above-mentioned second air intake port Enter the 3rd circulation and supply water-cooling device, with the 3rd spray equipment in the 3rd sweat cooling filler for water-cooling device for the 3rd circulation The shower water spraying occurs caloic to exchange, and the high temperature cold water of preparation falls into the 3rd cyclic water tank；High temperature in 3rd cyclic water tank Cold water passes through the 3rd feed pipe and flows into the second surface cooler, makes the outdoor air cooling by the second surface cooler, takes away the second surface cooler Backwater after heat is flow back in the 3rd spray equipment by the 3rd return pipe and forms circulation.

By being provided with the second user heat-exchange end of second user low-temperature heat exchange section and second user high-temperature heat transfer section, will First circulation uses for high temperature cold water part supply first user heat-exchange end prepared by water-cooling device, part supply second use Family low-temperature heat exchange section uses；Second circulation is used for high temperature cold water part supply the first surface cooler prepared by water-cooling device, Part supply second user high-temperature heat transfer section uses；Tentatively lowered the temperature by second user high-temperature heat transfer section, second user is low Warm heat exchanging segment is lowered the temperature further.

Present configuration is reasonable and compact, easy to use, and it supplies water-cooling device and first circulation cooling by second circulation The combination of water installations, can effectively reduce the height of equipment, and can significantly improve the cooling capacity utilization rate of equipment, have energy Effect than high, using field is wide, economy, energy-conservation, efficiently, the feature of environmental protection.

Brief description

Accompanying drawing 1 is the main structure diagram of the embodiment of the present invention 1.

Accompanying drawing 2 is the main structure diagram of the embodiment of the present invention 2.

Accompanying drawing 3 is the main structure diagram of the embodiment of the present invention 3.

Accompanying drawing 4 is the main structure diagram of the embodiment of the present invention 4.

Accompanying drawing 5 is the main structure diagram of the embodiment of the present invention 5.

Accompanying drawing 6 is the main structure diagram of the embodiment of the present invention 6.

Accompanying drawing 7 is the main structure diagram of the embodiment of the present invention 7.

Accompanying drawing 8 is the main structure diagram of the embodiment of the present invention 8.

Accompanying drawing 9 is the main structure diagram of the embodiment of the present invention 9.

It is the first surface cooler that coding in accompanying drawing is respectively as follows: 1, and 2 is the first housing, and 3 is the first sweat cooling filler, and 4 are First air intake port, 5 is the first air draft port, and 6 is the first spray equipment, and 7 is first circulation water tank, and 8 is first circulation pump, 9 For the first feed pipe, 10 is the first return pipe, and 11 is the second housing, and 12 is the second sweat cooling filler, and 13 is the second air intake Mouthful, 14 is the second air draft port, and 15 is the second spray equipment, and 16 is second circulation water tank, and 17 is second circulation pump, and 18 is second Feed pipe, 19 is the second return pipe, and 20 is exhaust blower, and 21 is the 3rd surface cooler, and 22 is first user heat-exchange end, and 23 is the 4th table Cooler, 24 is the 6th surface cooler, and 25 is the 3rd user's heat-exchange end, and 26 is the 5th surface cooler, and 27 is the second surface cooler, and 28 is the 3rd Air intake port, 29 is the 3rd sweat cooling filler, and 30 is the 3rd spray equipment, and 31 is the 3rd cyclic water tank, and 32 is the 3rd water supply Pipe, 33 is the 3rd return pipe, and 34 is the 3rd circulating pump, and 35 is second user heat-exchange end, and 36 is second user low-temperature heat exchange section, 37 For second user high-temperature heat transfer section, 38 is second user low-temperature zone feed pipe, and 39 is second user low-temperature zone return pipe, and 40 is the Two user's high temperature section feed pipes, 41 is second user high temperature section return pipe.

Specific embodiment

The present invention is not limited by following embodiments, can technology according to the present invention scheme determine specifically with practical situation Embodiment.

With reference to embodiment and accompanying drawing, one of technical solution of the present invention is further described:

Embodiment 1: as shown in Figure 1, the circulation that this multi cycle indirect-evaporation cooling water installations is included no less than two supplies Water-cooling device, wherein first circulation for water-cooling device include the first surface cooler 1, the first housing 2, the first sweat cooling filler 3, One spray equipment 6 and first circulation water tank 7, the first housing 2 is provided with the first air intake port 4, the outlet of first circulation water tank 7 It is connected with the first feed pipe 9 with first circulation pump 8, the water inlet of the first spray equipment 6 is connected with the first return pipe 10；Second Circulation includes the second housing 11, the second sweat cooling filler 12, the second spray equipment 15 and second circulation water tank for water-cooling device 16, the second housing 11 is provided with the second air intake port 13；First surface cooler 1, the first surface cooler are installed at the first air intake port 4 1 water inlet is communicated with the outlet of second circulation water tank 16 by the second feed pipe 18 with second circulation pump 17, and first The outlet of surface cooler 1 is communicated with the water inlet of the second spray equipment 15 by the second return pipe 19.Before the use, first by One user's heat-exchange end 22 is connected with the first feed pipe 9 and the first return pipe 10；Outdoor air is entered by the second air intake port 13 Second sweat cooling filler 12, the water in second circulation water tank 16 passes through second circulation pump 17 and pipeline flows into the first surface cooler 1, Flowed out by the first surface cooler 1 afterwards, flow into the shower water in the second spray equipment 15, being sprayed by the second spray equipment 15 by the road Carry out caloic exchange with the air entering the second sweat cooling filler 12 cold to produce high temperature in the second sweat cooling filler 12 Water, the high temperature cold water produced falls in second circulation water tank 16, and the high temperature cold water in second circulation water tank 16 passes through second circulation , to the first surface cooler 1, cooling is entered the outdoor of the first sweat cooling filler 3 by the first air intake port 4 for pump 17 and Pipeline transport Air, the air after cooling enters in the first sweat cooling filler 3, carries out caloic exchange with the shower water of the first spray equipment 6 To prepare high temperature cold water, the high temperature cold water of preparation falls in first circulation water tank 7, and the high temperature cold water in first circulation water tank 7 is led to Cross first circulation pump 8 and the first feed pipe 9 is transported to first user heat-exchange end 22, after taking away first user heat-exchange end 22 heat Backwater flows back into the first spray equipment 6 by the first return pipe 10 and forms circulation.It is cold that the present invention can produce high temperature using dry air Water, the high temperature cold water of preparation passes through distributing system, is transported to the heat that user takes away user；Water-cooling device is supplied by second circulation The cold water produced is conveyed to first circulation and supplies water-cooling device to be used for the cooling of air intake, produces first circulation for water-cooling device afterwards High temperature cold water be conveyed to first user heat-exchange end 22, the heat of first user heat-exchange end 22 is taken away.The present invention passes through second Circulation can effectively reduce the height of filler for water-cooling device, thus the height reduction of whole equipment can also be made, in addition by Big with respect to the cool water quantity that the indirect evaporation cooling water chiller of existing use provides in the present invention, the cold that equipment is produced can be made Substantially utilized completely by user, the therefore present invention also more energy-conservation, applicable dry air can be expanded and can prepare high temperature cold water Using field, further increase the Energy Efficiency Ratio of indirect evaporation cooling water chiller, be particularly well-suited to the field that device height is restricted Close, or leaving water temperature requires not being to use in too low building field.

According to actual needs above-mentioned multi cycle indirect-evaporation cooling water installations can be made further optimization and/or improvements:

According to actual needs, it is communicated with first user heat-exchange end 22 between the first feed pipe 9 and the first return pipe 10.

According to actual needs, described circulation also includes second user heat-exchange end 35, second user heat-exchange end for water-cooling device Including second user low-temperature heat exchange section 36 and second user high-temperature heat transfer section 37；The water inlet of second user low-temperature heat exchange section 36 leads to The outlet crossing second user low-temperature zone feed pipe 38 with the first feed pipe 9 communicates, the water outlet of second user low-temperature heat exchange section 36 Mouth is communicated with the water inlet of the first spray equipment 6 by second user low-temperature zone return pipe 39；Second user high-temperature heat transfer section 37 Water inlet communicated with the outlet of the second feed pipe 18 by second user high temperature section feed pipe 40, second user high temperature heat exchange The outlet of section 37 is communicated with the water inlet of the second spray equipment 15 by second user high temperature section return pipe 41.Due to meeting energy Amount Optimized Matching principle, first circulation supplies to give first user heat-exchange end 22 for a low-temperature cold water part prepared by water-cooling device, For giving second user low-temperature heat exchange section 36, second circulation supplies the high temperature cold water part supply of water-cooling device preparation to another part First surface cooler 1, another part, for giving second user high-temperature heat transfer section 37, make use of high temperature to high temperature heat exchange, low temperature pair The principle of low-temperature heat exchange, and utilize the cold of circulating water in the process, therefore more energy-conservation.

According to actual needs, the first spray equipment 6 is located at the top of the first sweat cooling filler 3, and first circulation water tank 7 sets Lower section in the first sweat cooling filler 3；Second spray equipment 15 is located at the top of the second sweat cooling filler 12, second circulation Water tank 16 is located at the lower section of the second sweat cooling filler 12；First housing 2 is provided with the first air draft port 5, and the second housing sets There is the second air draft port 14, at the second air draft port 14 and at the first air draft port 5, exhaust blower 20 is installed.

According to actual needs, the first housing 2 and the second housing 11 are connected as a single entity, the first air draft port 5 and the second air outlet Mouth 14 is the exhaust outlet end of detached two exhaust outlet ends or an entirety.When the first housing 2 and the second housing 11 are combined into one After body, accordingly, when the first air draft port 5 and the second air draft port 14 are detached two exhaust outlet ends, the first air outlet Single exhaust blower 20 can be separately installed with, when the first air draft port 5 and the second air outlet on mouth 5 and the second air draft port 14 When mouth 14 is the exhaust outlet end of an entirety, a shared exhaust blower 20 can be installed at overall exhaust outlet end.

Embodiment 2: as shown in Figure 2, embodiment 2 is with the difference of embodiment 1, the first housing 2 of embodiment 2 It is connected as a single entity with the second housing 11, the first air draft port 5 and the exhaust outlet end that the second air draft port is an entirety.By first shell The housing that body 2 and the second housing 11 are formed integrally, structure is compacter, takes up room less.When the first air draft port 5 and second When air draft port is the exhaust outlet end of an entirety, shared exhaust blower 20 is installed at overall exhaust outlet end.

Embodiment 3: as shown in Figure 3, embodiment 3 is with the difference of embodiment 2, the second air intake of embodiment 3 3rd surface cooler 21 is installed at port 13, the second return pipe 19 includes second return pipe the first pipeline section 19a and the second return pipe Second pipeline section 19b, the water inlet of the 3rd surface cooler 21 passes through the water outlet of second return pipe the first pipeline section 19a and the first surface cooler 1 Mouth communicates, and the outlet of the 3rd surface cooler 21 passes through the water inlet of second return pipe the second pipeline section 19b and the second spray equipment 15 Communicate.Before the use, first first user heat-exchange end 22 is connected with the first feed pipe 9 and the first return pipe 10；Outdoor air By second sweat cooling filler 12, the water in second circulation water tank 16 being entered by the second air intake port 13 after the 3rd surface cooler 21 First surface cooler 1 is flowed into by second circulation pump 17 and pipeline, is flowed out by the first surface cooler 1 afterwards, through the second return pipe the One pipeline section 19a flows into the 3rd surface cooler 21, the outdoor air cooling after making by the 3rd surface cooler 21, is flowed by the 3rd surface cooler 21 The water going out flows into the sky in the second spray equipment 15, after being cooled down by the 3rd surface cooler 21 through second return pipe the second pipeline section 19b Gas enter the second sweat cooling filler 12 in, with the shower water of the second spray equipment 15 carry out caloic exchange cold to prepare high temperature Water, the high temperature cold water produced falls in second circulation water tank 16, and the high temperature cold water in second circulation water tank 16 passes through second circulation , to the first surface cooler 1, cooling is entered the outdoor of the first sweat cooling filler 3 by the first air intake port 4 for pump 17 and Pipeline transport Air, the air after being cooled down by the first surface cooler 1 enters the shower water in the first sweat cooling filler 3, with the first spray equipment 6 Carry out caloic to exchange to prepare high temperature cold water, the high temperature cold water of preparation falls in first circulation water tank 7, in first circulation water tank 7 High temperature cold water pass through first circulation pump 8 and the first feed pipe 9 and be transported to first user heat-exchange end 22, take away first user heat exchange Hold the backwater after 22 heats to flow back into the first spray equipment 6 by the first return pipe 10 and form circulation.The second circulation of embodiment 3 Water in water tank 16 has been introduced into the first surface cooler 1, and cooling enters the air of the first sweat cooling filler 3, water temperature liter after cooling Height, but low with respect to outdoor inlet temperature, therefore can enter one being transported in the 3rd surface cooler 21 by water lines Step release cold water cold, can the maximized cold water produced for water-cooling device using second circulation cold, here mistake Cheng Zhong, cold water first supplies the first surface cooler 1, and the air entering the first sweat cooling filler 3 for cooling to make first circulation supply Water-cooling device produces low-temperature cold water, and Cold water supply first user heat-exchange end 22 lower for the temperature being obtained is used, by first The water that the water temperature that surface cooler 1 flows out raises is passed in the 3rd surface cooler 21 again, and cooling enters the second sweat cooling filler 12 Air, produces that the higher cold water of temperature supplies the first surface cooler 1 again and the 3rd surface cooler 21 uses, thus improve unit The utilization rate of cold water cold, therefore more energy-conservation；In the process, the cold of the cold water of self-loopa cooling dress preparation obtains Sufficiently discharge, reached the purpose of energy-conservation and low with respect to the temperature of the cold water of preparation in embodiment 1.

Embodiment 4: as shown in Figure 4, embodiment 4 is with the difference of embodiment 2, the second air intake of embodiment 4 4th surface cooler 23 is installed at port 13, the first return pipe 10 includes first return pipe the first pipeline section 10a and the first return pipe Second pipeline section 10b, the water inlet of the 4th surface cooler 23 passes through first return pipe the first pipeline section 10a and first user heat-exchange end 22 Outlet communicates, and the outlet of the 4th surface cooler 23 passes through the water inlet of first return pipe the second pipeline section 10b and the first spray equipment 6 Mouth communicates.Before the use, first first user heat-exchange end 22 is connected with the first feed pipe 9 and the first return pipe 10；Outdoor empty Gas enters the second sweat cooling filler 12 by the second air intake port 13, in second circulation water tank 16 after passing through the 4th surface cooler 23 Water passes through second circulation pump 17 and pipeline and flows into the first surface cooler 1, is flowed out by the first surface cooler 1 afterwards, flows into the through pipeline In two spray equipments 15, enter the air in the second sweat cooling filler 12 and the shower water of the second spray equipment 15 carries out caloic Exchange to prepare high temperature cold water, the high temperature cold water produced falls into the high temperature in second circulation water tank 16, in second circulation water tank 16 Cold water passes through second circulation pump 17 and Pipeline transport to the first surface cooler 1, and cooling enters the first evaporation by the first air intake port 4 The outdoor air of refrigeration filler 3, the air after being cooled down by the first surface cooler 1 enters in the first sweat cooling filler 3, with the first spray The shower water of shower device 6 carries out caloic and exchanges to prepare high temperature cold water, and the high temperature cold water of preparation falls in first circulation water tank 7, High temperature cold water in first circulation water tank 7 passes through first circulation pump 8 and the first feed pipe 9 is transported to first user heat-exchange end 22, Take away the backwater after first user heat-exchange end 22 heat and pass through first return pipe the first pipeline section 10a inflow the 4th surface cooler 23, make By the outdoor air cooling after the 4th surface cooler 23, the water being flowed out by the 4th surface cooler 23 is through first return pipe the second pipeline section 10b flow in the first spray equipment 6 and forms circulation.It is cold that water in the second circulation water tank 16 of embodiment 4 has been introduced into the first table Device 1, cooling enters the air of the first sweat cooling filler 3, produces cold water by occurring caloic to exchange with shower water, by first After the cold water of user's heat-exchange end 22 takes away the heat of first user heat-exchange end 22, water temperature raises, but relatively with outdoor air Temperature low, be connected with the water inlet of the 4th surface cooler 23 by the first return pipe 10, the cold water rising high-temperature enters the Four surface coolers 23 enter, to cool down, the air that second circulation supplies the second sweat cooling filler 12 in water-cooling device, produce temperature relatively High cold water, the cold of the cold water that so can be produced for water-cooling device using first circulation to greatest extent, improves cooling-water machine The utilization rate of the cold of group, thus reach the purpose of energy-conservation；In the process, first circulation supplies cold water prepared by water-cooling device Cold has obtained sufficient release, reached energy-conservation purpose and will be more with respect to the temperature of cold water of preparation in embodiment 1 Low.

According to actual needs, the air inlet of the 4th surface cooler 23 is provided with the 5th surface cooler 26, and the second return pipe 19 wraps Include second return pipe the first pipeline section 19a and second return pipe the second pipeline section 19b, the water inlet of the 5th surface cooler 26 passes through second time Water pipe the first pipeline section 19a is communicated with the outlet of the first surface cooler 1, and the outlet of the 5th surface cooler 26 passes through the second return pipe the Two pipeline section 19b are communicated with the water inlet of the second spray equipment 15.

According to actual needs, the 6th surface cooler 24, the 6th table are installed between the first surface cooler 1 and the first air intake port 4 The water inlet of cooler 24 is communicated with the outlet of the first feed pipe 9 by pipeline, and the outlet of the 6th surface cooler 24 passes through pipeline Communicate with the water inlet of the first return pipe 10.

According to actual needs, described circulation also includes the 3rd user's heat-exchange end 25, the 3rd user's heat-exchange end for water-cooling device 25 water inlet is communicated with the outlet of the second feed pipe 18, and the outlet of the 3rd user's heat-exchange end 25 passes through pipeline and the second spray The water inlet of shower device 15 communicates.

Embodiment 5: as shown in Figure 5, embodiment 5 is with the difference of embodiment 2, the first table of embodiment 5 is cold 6th surface cooler 24 is installed between device 1 and the first air intake port 4, the water inlet of the 6th surface cooler 24 passes through pipeline and the first confession The outlet of water pipe 9 communicates, and the outlet of the 6th surface cooler 24 is communicated with the water inlet of the first return pipe 10 by pipeline, circulation For water-cooling device, the 3rd user's heat-exchange end 25, the water inlet of the 3rd user's heat-exchange end 25 and the second feed pipe 18 are connected to by pipeline Outlet communicate, the outlet of the 3rd user's heat-exchange end 25 passes through the water inlet phase directly with the second spray equipment 15 for the pipeline Logical.A part of cold water of preparation in first circulation water tank 7 is passed through the 6th surface cooler 24, entrance first can be cooled down further and enter The air of wind port 4；A part of cold water of preparation in second circulation water tank 16 is passed through the 3rd user's heat-exchange end 25, one can be entered Step makes full use of the cold water that second circulation supplies water-cooling device preparation.Embodiment 5 can be maximized cold using prepared cold water Amount, cools down first user heat-exchange end 22 using low-temperature cold water, cools down the 3rd user's heat-exchange end 25 using high temperature cold water, meets energy Gradient utilize principle, the embodiment comparing above, the temperature of the water in the first circulation water tank 7 of this embodiment is lower.

Embodiment 6: as shown in Figure 6, embodiment 6 is with the difference of embodiment 3, the first table of embodiment 6 is cold 6th surface cooler 24 is installed between device 1 and the first air intake port 4, the water inlet of the 6th surface cooler 24 passes through pipeline and the first confession The outlet of water pipe 9 communicates, and the outlet of the 6th surface cooler 24 is communicated with the water inlet of the first return pipe 10 by pipeline, circulation For water-cooling device, the 3rd user's heat-exchange end 25 is connected to by pipeline, the second return pipe 19 includes second return pipe the first pipeline section 19a With second return pipe the second pipeline section 19b, the water inlet of the water inlet of the first surface cooler 1 and the 3rd user's heat-exchange end 25 is simultaneously with The outlet of two feed pipes 18 communicates, and the outlet of the first surface cooler 1 and the outlet of the 3rd user's heat-exchange end 25 pass through simultaneously Second return pipe the first pipeline section 19a is communicated with the water inlet of the 3rd surface cooler 21, and the outlet of the 3rd surface cooler 21 passes through second Return pipe the second pipeline section 19b is communicated with the water inlet of the second spray equipment 15.A part of cold by prepare in first circulation water tank 7 Water is passed through the 6th surface cooler 24, can cool down the air entering the first air intake port 4 further；To make in second circulation water tank 16 Standby a part of cold water is passed through the 3rd user's heat-exchange end 25, can make full use of second circulation further and supply water-cooling device preparation Cold water.Embodiment 6 bigizationner make use of second circulation for the cold of cold water produced in water-cooling device so that its equipment is more real Applying example 3 utilizes cold more abundant.

Embodiment 7: as shown in Figure 7, embodiment 7 is with the difference of embodiment 4, the first table of embodiment 7 is cold 6th surface cooler 24 is installed between device 1 and the first air intake port 4, it is cold that the air inlet of the 4th surface cooler 23 is provided with the 5th table Device 26；First return pipe 10 includes first return pipe the first pipeline section 10a and first return pipe the second pipeline section 10b, the 6th surface cooler The water inlet of 24 water inlet and first user heat-exchange end 22 is communicated with the outlet of the first feed pipe 9 simultaneously, the 6th surface cooler The outlet of 24 outlet and first user heat-exchange end 22 passes through first return pipe the first pipeline section 10a and the 4th surface cooler simultaneously 23 water inlet communicates, and the outlet of the 4th surface cooler 23 passes through first return pipe the second pipeline section 10b and the first spray equipment 6 Water inlet communicates；Circulation is connected to the 3rd user's heat-exchange end 25 for water-cooling device by pipeline, and the second return pipe 19 includes second time Water pipe the first pipeline section 19a and second return pipe the second pipeline section 19b, the water inlet of the first surface cooler 1 and the 3rd user's heat-exchange end 25 Water inlet communicate with the outlet of the second feed pipe 18 simultaneously, the outlet of the first surface cooler 1 and the 3rd user's heat-exchange end 25 Outlet communicated with the water inlet of the 5th surface cooler 26 by second return pipe the first pipeline section 19a simultaneously, the 5th surface cooler 26 Outlet communicated with the water inlet of the second spray equipment 15 by second return pipe the second pipeline section 19b.By first circulation water tank 7 A part of cold water of middle preparation is passed through the 6th surface cooler 24, can cool down the air entering the first air intake port 4 further；By In two-cycle case 16, a part of cold water of preparation is passed through the 3rd user's heat-exchange end 25, can make full use of second circulation further Cold water for water-cooling device preparation；The backwater of the relatively low temperature in the second return pipe 19 is passed through the 5th surface cooler 26 to entrance the 4th The air of surface cooler 23 carries out pre-cooling, can make full use of the cold of backwater further.Embodiment 7 bigizationner make use of second Circulation for water-cooling device and first circulation for the cold of cold water produced in water-cooling device so that its equipment utilizes compared with embodiment 4 Cold is more abundant.

Embodiment 8: as shown in Figure 8, described circulation still further comprises the 3rd circulation for water-cooling device and supplies water-cooling device With the second surface cooler 27, the second surface cooler 27 is installed at the second air intake port 13, the 3rd circulation includes for water-cooling device Three water-cooling device housings and the 3rd sweat cooling filler 29, the 3rd water-cooling device housing is provided with the 3rd air intake port 28 and the 3rd Water-cooling device exhaust outlet end, is provided with the 3rd sweat cooling filler 29 in the 3rd water-cooling device housing, the 3rd sweat cooling filler 29 top is provided with the 3rd spray equipment 30, and the lower section of the 3rd sweat cooling filler 29 is provided with the 3rd cyclic water tank 31, the 3rd steaming Send out refrigeration filler 29 air inlet communicate with outdoor by the 3rd air intake port 28, the air outlet of the 3rd sweat cooling filler 29 and 3rd water-cooling device exhaust outlet end communicates；The outlet of the 3rd cyclic water tank 31 is by the 3rd water supply with the 3rd circulating pump 34 Pipe 32 is communicated with the water inlet of the second surface cooler 27, and the outlet of the second surface cooler 27 passes through the 3rd return pipe 33 and the 3rd spray The water inlet of device 30 communicates, and is provided with exhaust blower 20 at the 3rd water-cooling device exhaust outlet end.

Embodiment 9: as shown in Figure 9, described circulation also includes second user heat-exchange end 35, second user for water-cooling device Heat-exchange end includes second user low-temperature heat exchange section 36 and second user high-temperature heat transfer section 37；The entering of second user low-temperature heat exchange section 36 The mouth of a river is communicated with the outlet of the first feed pipe 9 by second user low-temperature zone feed pipe 38, second user low-temperature heat exchange section 36 Outlet communicated with the water inlet of the first spray equipment 6 by second user low-temperature zone return pipe 39；Second user high temperature changes The water inlet of hot arc 37 is communicated with the outlet of the second feed pipe 18 by second user high temperature section feed pipe 40, and second user is high The outlet of warm heat exchanging segment 37 is communicated with the water inlet of the second spray equipment 15 by second user high temperature section return pipe 41.In reality When border uses, second user heat-exchange end 35 can be disposed in the interior, make indoor wind first pass through second user high-temperature heat transfer section 37 Tentatively lowered the temperature, lowered the temperature further through second user low-temperature heat exchange section 36 afterwards, so can be farthest sharp With the cold of circulating water, more environmentally-friendly energy-conservation.

It is further described to the two of technical solution of the present invention with reference to embodiment and accompanying drawing:

As shown in accompanying drawing 1,2,3,4,5,6,7,8,9, this uses the cold water of above-mentioned multi cycle indirect-evaporation cooling water installations Preparation method, comprising: outdoor wind enters second circulation and supplies water-cooling device, supplies the second sweat cooling of water-cooling device in second circulation The shower water spraying with the second spray equipment 15 in filler 12 occurs caloic to exchange, and the high temperature cold water of preparation falls into second circulation water Case 16, the high temperature cold water in second circulation water tank 16 flows back into the second spray equipment 15 after the first surface cooler 1 and forms circulation, First surface cooler 1 makes entrance first circulation supply the outdoor air cooling of water-cooling device, and cooled rear chamber exogenous wind enters first circulation and supplies Water-cooling device, supplies the shower water with the first spray equipment 6 ejection in the first sweat cooling filler 3 of water-cooling device in first circulation Caloic is occurred to exchange, the low-temperature cold water of preparation falls into first circulation water tank 7, by the low-temperature cold water supply in first circulation water tank 7 First user heat-exchange end 22 uses, and takes away the backwater after first user heat-exchange end 22 heat and flows back into the first spray equipment 6 and is formed Circulation.

According to actual needs above-mentioned multi cycle indirect-evaporation cooling water method can be made further optimization and/or improvements:

According to actual needs, as shown in Figure 3, the 3rd surface cooler 21 is set at the second air intake port 13, takes away first Backwater after surface cooler 1 heat first passes through the 3rd surface cooler 21, makes the outdoor air cooling by the 3rd surface cooler 21, passes through afterwards The current of the 3rd surface cooler 21 return in the second spray equipment 15.

According to actual needs, as shown in Figure 4, the 4th surface cooler 23 is set at the second air intake port 13, takes away first Backwater after user's heat-exchange end 22 heat first passes through the 4th surface cooler 23, makes the outdoor air cooling by the 4th surface cooler 23, it Return in the first spray equipment 6 through the current of the 4th surface cooler 23 afterwards.

According to actual needs, as shown in Figure 7, the air inlet in the 4th surface cooler 23 arranges the 5th surface cooler 26, band Walk the backwater after the first surface cooler 1 heat and first pass through the 5th surface cooler 26, make the outdoor air cooling by the 5th surface cooler 26, cold But it is further cooled when the outdoor wind after is by four surface coolers 23 and sends into second circulation and supply water-cooling device, afterwards through The current of five surface coolers 26 return in the second spray equipment 15.

According to actual needs, as shown in accompanying drawing 5,6,7, arrange the 6th between the first surface cooler 1 and the first air intake port 4 Surface cooler 24, second circulation uses for low-temperature cold water part supply first user heat-exchange end 22 prepared by water-cooling device, one Supply the 6th surface cooler 24 is divided to use, the outdoor wind after the first surface cooler 1 cooling is cooled down simultaneously further by the 6th surface cooler 24 Send into first circulation and supply water-cooling device, take away the backwater after first user heat-exchange end 22 and the 6th surface cooler 24 heat afterwards and flow back to To in the first spray equipment 6.

According to actual needs, as shown in accompanying drawing 5,6,7, by arranging the 3rd user's heat-exchange end 25, by second circulation cooling High temperature cold water part supply first surface cooler 1 of water installations preparation uses, and part supply the 3rd user's heat-exchange end 25 uses, Take away the backwater after the first surface cooler 1 and the 3rd user's heat-exchange end 25 heat afterwards to flow back in the second spray equipment 15.

According to actual needs, as shown in Figure 8, supply water-cooling device by arranging the 3rd circulation, in the second air intake port 13 Place's setting the second surface cooler 27, outdoor wind enters the 3rd circulation and supplies water-cooling device, circulates the 3rd steaming for water-cooling device the 3rd Sending out the shower water spraying in refrigeration filler 29 with the 3rd spray equipment 30 occurs caloic to exchange, and the high temperature cold water of preparation falls into the 3rd Cyclic water tank 31；High temperature cold water in 3rd cyclic water tank 31 flows into the second surface cooler 27 by the 3rd feed pipe 32, makes to pass through The outdoor air cooling of the second surface cooler 27, takes away the backwater after the second surface cooler 27 heat and flow back into by the 3rd return pipe 33 Form circulation in three spray equipments 30.

According to actual needs, as shown in Figure 9, high by being provided with second user low-temperature heat exchange section 36 and second user The second user heat-exchange end 35 of warm heat exchanging segment 37, first circulation is supplied the high temperature cold water part supply first of water-cooling device preparation User's heat-exchange end 22 uses, and part supply second user low-temperature heat exchange section 36 uses；Second circulation is supplied water-cooling device to prepare High temperature cold water a part supply the first surface cooler 1 use, a part supply second user high-temperature heat transfer section 37 use；By second User's high-temperature heat transfer section 37 is tentatively lowered the temperature, and second user low-temperature heat exchange section 36 is lowered the temperature further.

Above technical characteristic constitutes embodiments of the invention, and it has stronger adaptability and implementation result, can basis It is actually needed the non-essential technical characteristic of increase and decrease, to meet the demand of different situations.

Claims (276)

1. a kind of multi cycle indirect-evaporation cooling water installations are it is characterised in that the circulation including no less than two supplies water-cooling device, Wherein first circulation for water-cooling device include the first surface cooler, the first housing, the first sweat cooling filler, the first spray equipment and First circulation water tank, the first housing is provided with the first air intake port, and the outlet of first circulation water tank is connected with band first circulation First feed pipe of pump, the water inlet of the first spray equipment is connected with the first return pipe；Second circulation includes for water-cooling device Two housings, the second sweat cooling filler, the second spray equipment and second circulation water tank, the second housing is provided with the second air intake Mouthful；First air intake port is provided with the first surface cooler, and the water inlet of the first surface cooler is by second with second circulation pump Feed pipe is communicated with the outlet of second circulation water tank, and the outlet of the first surface cooler passes through the second return pipe and the second spray dress The water inlet put communicates.

2. multi cycle indirect-evaporation cooling water installations according to claim 1 are it is characterised in that the first feed pipe and first It is communicated with first user heat-exchange end between return pipe.

3. multi cycle indirect-evaporation cooling water installations according to claim 1 and 2 are it is characterised in that described circulation supplies cold water Device also includes second user heat-exchange end, and second user heat-exchange end includes second user low-temperature heat exchange section and second user high temperature changes Hot arc；The water inlet of second user low-temperature heat exchange section passes through the outlet phase of second user low-temperature zone feed pipe and the first feed pipe Logical, the outlet of second user low-temperature heat exchange section passes through the water inlet phase of second user low-temperature zone return pipe and the first spray equipment Logical；The water inlet of second user high-temperature heat transfer section passes through the outlet phase of second user high temperature section feed pipe and the second feed pipe Logical, the outlet of second user high-temperature heat transfer section passes through the water inlet phase of second user high temperature section return pipe and the second spray equipment Logical.

4. multi cycle indirect-evaporation cooling water installations according to claim 1 and 2 are it is characterised in that the first spray equipment sets Above the first sweat cooling filler, first circulation water tank is located at the lower section of the first sweat cooling filler；Second spray equipment It is located at the top of the second sweat cooling filler, second circulation water tank is located at the lower section of the second sweat cooling filler；On first housing It is provided with the first air draft port, the second housing is provided with the second air draft port, in the second air draft port and the first air draft port Exhaust blower is installed.

5. multi cycle indirect-evaporation cooling water installations according to claim 3 are it is characterised in that the first spray equipment is located at The top of the first sweat cooling filler, first circulation water tank is located at the lower section of the first sweat cooling filler；Second spray equipment sets Above the second sweat cooling filler, second circulation water tank is located at the lower section of the second sweat cooling filler；Set on first housing There is the first air draft port, the second housing is provided with the second air draft port, in the second air draft port and the first air draft port peace Equipped with exhaust blower.

6. multi cycle indirect-evaporation cooling water installations according to claim 1 and 2 are it is characterised in that the first housing and second Housing is connected as a single entity, the first air draft port and the air draft that the second air draft port is detached two exhaust outlet ends or an entirety Mouth end.

7. multi cycle indirect-evaporation cooling water installations according to claim 3 are it is characterised in that the first housing and second shell Body is connected as a single entity, the first air draft port and the exhaust outlet that the second air draft port is detached two exhaust outlet ends or an entirety End.

8. multi cycle indirect-evaporation cooling water installations according to claim 4 are it is characterised in that the first housing and second shell Body is connected as a single entity, the first air draft port and the exhaust outlet that the second air draft port is detached two exhaust outlet ends or an entirety End.

9. multi cycle indirect-evaporation cooling water installations according to claim 5 are it is characterised in that the first housing and second shell Body is connected as a single entity, the first air draft port and the exhaust outlet that the second air draft port is detached two exhaust outlet ends or an entirety End.

10. multi cycle indirect-evaporation cooling water installations according to claim 1 and 2 are it is characterised in that the second air intake port Place is provided with the 3rd surface cooler, and the second return pipe includes second return pipe the first pipeline section and second return pipe the second pipeline section, and the 3rd The water inlet of surface cooler is communicated with the outlet of the first surface cooler by second return pipe the first pipeline section, the water outlet of the 3rd surface cooler Mouth is communicated with the water inlet of the second spray equipment by second return pipe the second pipeline section.

11. multi cycle indirect-evaporation cooling water installations according to claim 3 are it is characterised in that the second air intake port is pacified Equipped with the 3rd surface cooler, the second return pipe includes second return pipe the first pipeline section and second return pipe the second pipeline section, and the 3rd table is cold The water inlet of device is communicated with the outlet of the first surface cooler by second return pipe the first pipeline section, and the outlet of the 3rd surface cooler leads to Cross second return pipe the second pipeline section to communicate with the water inlet of the second spray equipment.

12. multi cycle indirect-evaporation cooling water installations according to claim 4 are it is characterised in that the second air intake port is pacified Equipped with the 3rd surface cooler, the second return pipe includes second return pipe the first pipeline section and second return pipe the second pipeline section, and the 3rd table is cold The water inlet of device is communicated with the outlet of the first surface cooler by second return pipe the first pipeline section, and the outlet of the 3rd surface cooler leads to Cross second return pipe the second pipeline section to communicate with the water inlet of the second spray equipment.

13. multi cycle indirect-evaporation cooling water installations according to claim 5 are it is characterised in that the second air intake port is pacified Equipped with the 3rd surface cooler, the second return pipe includes second return pipe the first pipeline section and second return pipe the second pipeline section, and the 3rd table is cold The water inlet of device is communicated with the outlet of the first surface cooler by second return pipe the first pipeline section, and the outlet of the 3rd surface cooler leads to Cross second return pipe the second pipeline section to communicate with the water inlet of the second spray equipment.

14. multi cycle indirect-evaporation cooling water installations according to claim 6 are it is characterised in that the second air intake port is pacified Equipped with the 3rd surface cooler, the second return pipe includes second return pipe the first pipeline section and second return pipe the second pipeline section, and the 3rd table is cold The water inlet of device is communicated with the outlet of the first surface cooler by second return pipe the first pipeline section, and the outlet of the 3rd surface cooler leads to Cross second return pipe the second pipeline section to communicate with the water inlet of the second spray equipment.

15. multi cycle indirect-evaporation cooling water installations according to claim 7 are it is characterised in that the second air intake port is pacified Equipped with the 3rd surface cooler, the second return pipe includes second return pipe the first pipeline section and second return pipe the second pipeline section, and the 3rd table is cold The water inlet of device is communicated with the outlet of the first surface cooler by second return pipe the first pipeline section, and the outlet of the 3rd surface cooler leads to Cross second return pipe the second pipeline section to communicate with the water inlet of the second spray equipment.

16. multi cycle indirect-evaporation cooling water installations according to claim 8 are it is characterised in that the second air intake port is pacified Equipped with the 3rd surface cooler, the second return pipe includes second return pipe the first pipeline section and second return pipe the second pipeline section, and the 3rd table is cold The water inlet of device is communicated with the outlet of the first surface cooler by second return pipe the first pipeline section, and the outlet of the 3rd surface cooler leads to Cross second return pipe the second pipeline section to communicate with the water inlet of the second spray equipment.

17. multi cycle indirect-evaporation cooling water installations according to claim 9 are it is characterised in that the second air intake port is pacified Equipped with the 3rd surface cooler, the second return pipe includes second return pipe the first pipeline section and second return pipe the second pipeline section, and the 3rd table is cold The water inlet of device is communicated with the outlet of the first surface cooler by second return pipe the first pipeline section, and the outlet of the 3rd surface cooler leads to Cross second return pipe the second pipeline section to communicate with the water inlet of the second spray equipment.

18. multi cycle indirect-evaporation cooling water installations according to claim 1 and 2 are it is characterised in that the second air intake port Place is provided with the 4th surface cooler, and the first return pipe includes first return pipe the first pipeline section and first return pipe the second pipeline section, and the 4th The water inlet of surface cooler is communicated with the outlet of first user heat-exchange end by first return pipe the first pipeline section, the 4th surface cooler Outlet is communicated with the water inlet of the first spray equipment by first return pipe the second pipeline section.

19. multi cycle indirect-evaporation cooling water installations according to claim 3 are it is characterised in that the second air intake port is pacified Equipped with the 4th surface cooler, the first return pipe includes first return pipe the first pipeline section and first return pipe the second pipeline section, and the 4th table is cold The water inlet of device is communicated with the outlet of first user heat-exchange end by first return pipe the first pipeline section, the water outlet of the 4th surface cooler Mouth is communicated with the water inlet of the first spray equipment by first return pipe the second pipeline section.

20. multi cycle indirect-evaporation cooling water installations according to claim 4 are it is characterised in that the second air intake port is pacified Equipped with the 4th surface cooler, the first return pipe includes first return pipe the first pipeline section and first return pipe the second pipeline section, and the 4th table is cold The water inlet of device is communicated with the outlet of first user heat-exchange end by first return pipe the first pipeline section, the water outlet of the 4th surface cooler Mouth is communicated with the water inlet of the first spray equipment by first return pipe the second pipeline section.

21. multi cycle indirect-evaporation cooling water installations according to claim 5 are it is characterised in that the second air intake port is pacified Equipped with the 4th surface cooler, the first return pipe includes first return pipe the first pipeline section and first return pipe the second pipeline section, and the 4th table is cold The water inlet of device is communicated with the outlet of first user heat-exchange end by first return pipe the first pipeline section, the water outlet of the 4th surface cooler Mouth is communicated with the water inlet of the first spray equipment by first return pipe the second pipeline section.

22. multi cycle indirect-evaporation cooling water installations according to claim 6 are it is characterised in that the second air intake port is pacified Equipped with the 4th surface cooler, the first return pipe includes first return pipe the first pipeline section and first return pipe the second pipeline section, and the 4th table is cold The water inlet of device is communicated with the outlet of first user heat-exchange end by first return pipe the first pipeline section, the water outlet of the 4th surface cooler Mouth is communicated with the water inlet of the first spray equipment by first return pipe the second pipeline section.

23. multi cycle indirect-evaporation cooling water installations according to claim 7 are it is characterised in that the second air intake port is pacified Equipped with the 4th surface cooler, the first return pipe includes first return pipe the first pipeline section and first return pipe the second pipeline section, and the 4th table is cold The water inlet of device is communicated with the outlet of first user heat-exchange end by first return pipe the first pipeline section, the water outlet of the 4th surface cooler Mouth is communicated with the water inlet of the first spray equipment by first return pipe the second pipeline section.

24. multi cycle indirect-evaporation cooling water installations according to claim 8 are it is characterised in that the second air intake port is pacified Equipped with the 4th surface cooler, the first return pipe includes first return pipe the first pipeline section and first return pipe the second pipeline section, and the 4th table is cold The water inlet of device is communicated with the outlet of first user heat-exchange end by first return pipe the first pipeline section, the water outlet of the 4th surface cooler Mouth is communicated with the water inlet of the first spray equipment by first return pipe the second pipeline section.

25. multi cycle indirect-evaporation cooling water installations according to claim 9 are it is characterised in that the second air intake port is pacified Equipped with the 4th surface cooler, the first return pipe includes first return pipe the first pipeline section and first return pipe the second pipeline section, and the 4th table is cold The water inlet of device is communicated with the outlet of first user heat-exchange end by first return pipe the first pipeline section, the water outlet of the 4th surface cooler Mouth is communicated with the water inlet of the first spray equipment by first return pipe the second pipeline section.

26. multi cycle indirect-evaporation cooling water installations according to claim 18 are it is characterised in that the entering of the 4th surface cooler 5th surface cooler is installed at air port, the second return pipe includes second return pipe the first pipeline section and second return pipe the second pipeline section, The water inlet of the 5th surface cooler is communicated with the outlet of the first surface cooler by second return pipe the first pipeline section, the 5th surface cooler Outlet is communicated with the water inlet of the second spray equipment by second return pipe the second pipeline section.

27. multi cycle indirect-evaporation cooling water installations according to claim 19 are it is characterised in that the entering of the 4th surface cooler 5th surface cooler is installed at air port, the second return pipe includes second return pipe the first pipeline section and second return pipe the second pipeline section, The water inlet of the 5th surface cooler is communicated with the outlet of the first surface cooler by second return pipe the first pipeline section, the 5th surface cooler Outlet is communicated with the water inlet of the second spray equipment by second return pipe the second pipeline section.

28. multi cycle indirect-evaporation cooling water installations according to claim 20 are it is characterised in that the entering of the 4th surface cooler 5th surface cooler is installed at air port, the second return pipe includes second return pipe the first pipeline section and second return pipe the second pipeline section, The water inlet of the 5th surface cooler is communicated with the outlet of the first surface cooler by second return pipe the first pipeline section, the 5th surface cooler Outlet is communicated with the water inlet of the second spray equipment by second return pipe the second pipeline section.

29. multi cycle indirect-evaporation cooling water installations according to claim 21 are it is characterised in that the entering of the 4th surface cooler 5th surface cooler is installed at air port, the second return pipe includes second return pipe the first pipeline section and second return pipe the second pipeline section, The water inlet of the 5th surface cooler is communicated with the outlet of the first surface cooler by second return pipe the first pipeline section, the 5th surface cooler Outlet is communicated with the water inlet of the second spray equipment by second return pipe the second pipeline section.

30. multi cycle indirect-evaporation cooling water installations according to claim 22 are it is characterised in that the entering of the 4th surface cooler 5th surface cooler is installed at air port, the second return pipe includes second return pipe the first pipeline section and second return pipe the second pipeline section, The water inlet of the 5th surface cooler is communicated with the outlet of the first surface cooler by second return pipe the first pipeline section, the 5th surface cooler Outlet is communicated with the water inlet of the second spray equipment by second return pipe the second pipeline section.

31. multi cycle indirect-evaporation cooling water installations according to claim 23 are it is characterised in that the entering of the 4th surface cooler 5th surface cooler is installed at air port, the second return pipe includes second return pipe the first pipeline section and second return pipe the second pipeline section, The water inlet of the 5th surface cooler is communicated with the outlet of the first surface cooler by second return pipe the first pipeline section, the 5th surface cooler Outlet is communicated with the water inlet of the second spray equipment by second return pipe the second pipeline section.

32. multi cycle indirect-evaporation cooling water installations according to claim 24 are it is characterised in that the entering of the 4th surface cooler 5th surface cooler is installed at air port, the second return pipe includes second return pipe the first pipeline section and second return pipe the second pipeline section, The water inlet of the 5th surface cooler is communicated with the outlet of the first surface cooler by second return pipe the first pipeline section, the 5th surface cooler Outlet is communicated with the water inlet of the second spray equipment by second return pipe the second pipeline section.

33. multi cycle indirect-evaporation cooling water installations according to claim 25 are it is characterised in that the entering of the 4th surface cooler 5th surface cooler is installed at air port, the second return pipe includes second return pipe the first pipeline section and second return pipe the second pipeline section, The water inlet of the 5th surface cooler is communicated with the outlet of the first surface cooler by second return pipe the first pipeline section, the 5th surface cooler Outlet is communicated with the water inlet of the second spray equipment by second return pipe the second pipeline section.

34. multi cycle indirect-evaporation cooling water installations according to claim 1 and 2 it is characterised in that the first surface cooler with 6th surface cooler is installed between the first air intake port, the water inlet of the 6th surface cooler passes through the water outlet of pipeline and the first feed pipe Mouth communicates, and the outlet of the 6th surface cooler is communicated with the water inlet of the first return pipe by pipeline.

35. multi cycle indirect-evaporation cooling water installations according to claim 3 are it is characterised in that the first surface cooler and first 6th surface cooler is installed between air intake port, the water inlet of the 6th surface cooler passes through the outlet phase of pipeline and the first feed pipe Logical, the outlet of the 6th surface cooler is communicated with the water inlet of the first return pipe by pipeline.

36. multi cycle indirect-evaporation cooling water installations according to claim 4 are it is characterised in that the first surface cooler and first 6th surface cooler is installed between air intake port, the water inlet of the 6th surface cooler passes through the outlet phase of pipeline and the first feed pipe Logical, the outlet of the 6th surface cooler is communicated with the water inlet of the first return pipe by pipeline.

37. multi cycle indirect-evaporation cooling water installations according to claim 5 are it is characterised in that the first surface cooler and first 6th surface cooler is installed between air intake port, the water inlet of the 6th surface cooler passes through the outlet phase of pipeline and the first feed pipe Logical, the outlet of the 6th surface cooler is communicated with the water inlet of the first return pipe by pipeline.

38. multi cycle indirect-evaporation cooling water installations according to claim 6 are it is characterised in that the first surface cooler and first 6th surface cooler is installed between air intake port, the water inlet of the 6th surface cooler passes through the outlet phase of pipeline and the first feed pipe Logical, the outlet of the 6th surface cooler is communicated with the water inlet of the first return pipe by pipeline.

39. multi cycle indirect-evaporation cooling water installations according to claim 7 are it is characterised in that the first surface cooler and first 6th surface cooler is installed between air intake port, the water inlet of the 6th surface cooler passes through the outlet phase of pipeline and the first feed pipe Logical, the outlet of the 6th surface cooler is communicated with the water inlet of the first return pipe by pipeline.

40. multi cycle indirect-evaporation cooling water installations according to claim 8 are it is characterised in that the first surface cooler and first 6th surface cooler is installed between air intake port, the water inlet of the 6th surface cooler passes through the outlet phase of pipeline and the first feed pipe Logical, the outlet of the 6th surface cooler is communicated with the water inlet of the first return pipe by pipeline.

41. multi cycle indirect-evaporation cooling water installations according to claim 9 are it is characterised in that the first surface cooler and first 6th surface cooler is installed between air intake port, the water inlet of the 6th surface cooler passes through the outlet phase of pipeline and the first feed pipe Logical, the outlet of the 6th surface cooler is communicated with the water inlet of the first return pipe by pipeline.

42. multi cycle indirect-evaporation cooling water installations according to claim 10 are it is characterised in that the first surface cooler and 6th surface cooler is installed between one air intake port, the water inlet of the 6th surface cooler passes through the outlet of pipeline and the first feed pipe Communicate, the outlet of the 6th surface cooler is communicated with the water inlet of the first return pipe by pipeline.

43. multi cycle indirect-evaporation cooling water installations according to claim 11 are it is characterised in that the first surface cooler and 6th surface cooler is installed between one air intake port, the water inlet of the 6th surface cooler passes through the outlet of pipeline and the first feed pipe Communicate, the outlet of the 6th surface cooler is communicated with the water inlet of the first return pipe by pipeline.

44. multi cycle indirect-evaporation cooling water installations according to claim 12 are it is characterised in that the first surface cooler and 6th surface cooler is installed between one air intake port, the water inlet of the 6th surface cooler passes through the outlet of pipeline and the first feed pipe Communicate, the outlet of the 6th surface cooler is communicated with the water inlet of the first return pipe by pipeline.

45. multi cycle indirect-evaporation cooling water installations according to claim 13 are it is characterised in that the first surface cooler and 6th surface cooler is installed between one air intake port, the water inlet of the 6th surface cooler passes through the outlet of pipeline and the first feed pipe Communicate, the outlet of the 6th surface cooler is communicated with the water inlet of the first return pipe by pipeline.

46. multi cycle indirect-evaporation cooling water installations according to claim 14 are it is characterised in that the first surface cooler and 6th surface cooler is installed between one air intake port, the water inlet of the 6th surface cooler passes through the outlet of pipeline and the first feed pipe Communicate, the outlet of the 6th surface cooler is communicated with the water inlet of the first return pipe by pipeline.

47. multi cycle indirect-evaporation cooling water installations according to claim 15 are it is characterised in that the first surface cooler and 6th surface cooler is installed between one air intake port, the water inlet of the 6th surface cooler passes through the outlet of pipeline and the first feed pipe Communicate, the outlet of the 6th surface cooler is communicated with the water inlet of the first return pipe by pipeline.

48. multi cycle indirect-evaporation cooling water installations according to claim 16 are it is characterised in that the first surface cooler and 6th surface cooler is installed between one air intake port, the water inlet of the 6th surface cooler passes through the outlet of pipeline and the first feed pipe Communicate, the outlet of the 6th surface cooler is communicated with the water inlet of the first return pipe by pipeline.

49. multi cycle indirect-evaporation cooling water installations according to claim 17 are it is characterised in that the first surface cooler and 6th surface cooler is installed between one air intake port, the water inlet of the 6th surface cooler passes through the outlet of pipeline and the first feed pipe Communicate, the outlet of the 6th surface cooler is communicated with the water inlet of the first return pipe by pipeline.

50. multi cycle indirect-evaporation cooling water installations according to claim 18 are it is characterised in that the first surface cooler and 6th surface cooler is installed between one air intake port, the water inlet of the 6th surface cooler passes through the outlet of pipeline and the first feed pipe Communicate, the outlet of the 6th surface cooler is communicated with the water inlet of the first return pipe by pipeline.

51. multi cycle indirect-evaporation cooling water installations according to claim 19 are it is characterised in that the first surface cooler and 6th surface cooler is installed between one air intake port, the water inlet of the 6th surface cooler passes through the outlet of pipeline and the first feed pipe Communicate, the outlet of the 6th surface cooler is communicated with the water inlet of the first return pipe by pipeline.

52. multi cycle indirect-evaporation cooling water installations according to claim 20 are it is characterised in that the first surface cooler and 6th surface cooler is installed between one air intake port, the water inlet of the 6th surface cooler passes through the outlet of pipeline and the first feed pipe Communicate, the outlet of the 6th surface cooler is communicated with the water inlet of the first return pipe by pipeline.

53. multi cycle indirect-evaporation cooling water installations according to claim 21 are it is characterised in that the first surface cooler and 6th surface cooler is installed between one air intake port, the water inlet of the 6th surface cooler passes through the outlet of pipeline and the first feed pipe Communicate, the outlet of the 6th surface cooler is communicated with the water inlet of the first return pipe by pipeline.

54. multi cycle indirect-evaporation cooling water installations according to claim 22 are it is characterised in that the first surface cooler and 6th surface cooler is installed between one air intake port, the water inlet of the 6th surface cooler passes through the outlet of pipeline and the first feed pipe Communicate, the outlet of the 6th surface cooler is communicated with the water inlet of the first return pipe by pipeline.

55. multi cycle indirect-evaporation cooling water installations according to claim 23 are it is characterised in that the first surface cooler and 6th surface cooler is installed between one air intake port, the water inlet of the 6th surface cooler passes through the outlet of pipeline and the first feed pipe Communicate, the outlet of the 6th surface cooler is communicated with the water inlet of the first return pipe by pipeline.

56. multi cycle indirect-evaporation cooling water installations according to claim 24 are it is characterised in that the first surface cooler and 6th surface cooler is installed between one air intake port, the water inlet of the 6th surface cooler passes through the outlet of pipeline and the first feed pipe Communicate, the outlet of the 6th surface cooler is communicated with the water inlet of the first return pipe by pipeline.

57. multi cycle indirect-evaporation cooling water installations according to claim 25 are it is characterised in that the first surface cooler and 6th surface cooler is installed between one air intake port, the water inlet of the 6th surface cooler passes through the outlet of pipeline and the first feed pipe Communicate, the outlet of the 6th surface cooler is communicated with the water inlet of the first return pipe by pipeline.

58. multi cycle indirect-evaporation cooling water installations according to claim 26 are it is characterised in that the first surface cooler and 6th surface cooler is installed between one air intake port, the water inlet of the 6th surface cooler passes through the outlet of pipeline and the first feed pipe Communicate, the outlet of the 6th surface cooler is communicated with the water inlet of the first return pipe by pipeline.

59. multi cycle indirect-evaporation cooling water installations according to claim 27 are it is characterised in that the first surface cooler and 6th surface cooler is installed between one air intake port, the water inlet of the 6th surface cooler passes through the outlet of pipeline and the first feed pipe Communicate, the outlet of the 6th surface cooler is communicated with the water inlet of the first return pipe by pipeline.

60. multi cycle indirect-evaporation cooling water installations according to claim 28 are it is characterised in that the first surface cooler and 6th surface cooler is installed between one air intake port, the water inlet of the 6th surface cooler passes through the outlet of pipeline and the first feed pipe Communicate, the outlet of the 6th surface cooler is communicated with the water inlet of the first return pipe by pipeline.

61. multi cycle indirect-evaporation cooling water installations according to claim 29 are it is characterised in that the first surface cooler and 6th surface cooler is installed between one air intake port, the water inlet of the 6th surface cooler passes through the outlet of pipeline and the first feed pipe Communicate, the outlet of the 6th surface cooler is communicated with the water inlet of the first return pipe by pipeline.

62. multi cycle indirect-evaporation cooling water installations according to claim 30 are it is characterised in that the first surface cooler and 6th surface cooler is installed between one air intake port, the water inlet of the 6th surface cooler passes through the outlet of pipeline and the first feed pipe Communicate, the outlet of the 6th surface cooler is communicated with the water inlet of the first return pipe by pipeline.

63. multi cycle indirect-evaporation cooling water installations according to claim 31 are it is characterised in that the first surface cooler and 6th surface cooler is installed between one air intake port, the water inlet of the 6th surface cooler passes through the outlet of pipeline and the first feed pipe Communicate, the outlet of the 6th surface cooler is communicated with the water inlet of the first return pipe by pipeline.

64. multi cycle indirect-evaporation cooling water installations according to claim 32 are it is characterised in that the first surface cooler and 6th surface cooler is installed between one air intake port, the water inlet of the 6th surface cooler passes through the outlet of pipeline and the first feed pipe Communicate, the outlet of the 6th surface cooler is communicated with the water inlet of the first return pipe by pipeline.

65. multi cycle indirect-evaporation cooling water installations according to claim 33 are it is characterised in that the first surface cooler and 6th surface cooler is installed between one air intake port, the water inlet of the 6th surface cooler passes through the outlet of pipeline and the first feed pipe Communicate, the outlet of the 6th surface cooler is communicated with the water inlet of the first return pipe by pipeline.

66. multi cycle indirect-evaporation cooling water installations according to claim 1 and 2 are it is characterised in that described circulation cooling Water installations also include the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, the The outlet of three user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

67. multi cycle indirect-evaporation cooling water installations according to claim 3 are it is characterised in that described circulation supplies cold water to fill Put and also include the 3rd user's heat-exchange end, the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, the 3rd use The outlet of family heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

68. multi cycle indirect-evaporation cooling water installations according to claim 4 are it is characterised in that described circulation supplies cold water to fill Put and also include the 3rd user's heat-exchange end, the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, the 3rd use The outlet of family heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

69. multi cycle indirect-evaporation cooling water installations according to claim 5 are it is characterised in that described circulation supplies cold water to fill Put and also include the 3rd user's heat-exchange end, the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, the 3rd use The outlet of family heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

70. multi cycle indirect-evaporation cooling water installations according to claim 6 are it is characterised in that described circulation supplies cold water to fill Put and also include the 3rd user's heat-exchange end, the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, the 3rd use The outlet of family heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

71. multi cycle indirect-evaporation cooling water installations according to claim 7 are it is characterised in that described circulation supplies cold water to fill Put and also include the 3rd user's heat-exchange end, the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, the 3rd use The outlet of family heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

72. multi cycle indirect-evaporation cooling water installations according to claim 8 are it is characterised in that described circulation supplies cold water to fill Put and also include the 3rd user's heat-exchange end, the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, the 3rd use The outlet of family heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

73. multi cycle indirect-evaporation cooling water installations according to claim 9 are it is characterised in that described circulation supplies cold water to fill Put and also include the 3rd user's heat-exchange end, the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, the 3rd use The outlet of family heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

74. multi cycle indirect-evaporation cooling water installations according to claim 10 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

75. multi cycle indirect-evaporation cooling water installations according to claim 11 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

76. multi cycle indirect-evaporation cooling water installations according to claim 12 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

77. multi cycle indirect-evaporation cooling water installations according to claim 13 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

78. multi cycle indirect-evaporation cooling water installations according to claim 14 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

79. multi cycle indirect-evaporation cooling water installations according to claim 15 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

80. multi cycle indirect-evaporation cooling water installations according to claim 16 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

81. multi cycle indirect-evaporation cooling water installations according to claim 17 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

82. multi cycle indirect-evaporation cooling water installations according to claim 18 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

83. multi cycle indirect-evaporation cooling water installations according to claim 19 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

84. multi cycle indirect-evaporation cooling water installations according to claim 20 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

85. multi cycle indirect-evaporation cooling water installations according to claim 21 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

86. multi cycle indirect-evaporation cooling water installations according to claim 22 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

87. multi cycle indirect-evaporation cooling water installations according to claim 23 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

88. multi cycle indirect-evaporation cooling water installations according to claim 24 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

89. multi cycle indirect-evaporation cooling water installations according to claim 25 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

90. multi cycle indirect-evaporation cooling water installations according to claim 26 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

91. multi cycle indirect-evaporation cooling water installations according to claim 27 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

92. multi cycle indirect-evaporation cooling water installations according to claim 28 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

93. multi cycle indirect-evaporation cooling water installations according to claim 29 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

94. multi cycle indirect-evaporation cooling water installations according to claim 30 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

95. multi cycle indirect-evaporation cooling water installations according to claim 31 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

96. multi cycle indirect-evaporation cooling water installations according to claim 32 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

97. multi cycle indirect-evaporation cooling water installations according to claim 33 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

98. multi cycle indirect-evaporation cooling water installations according to claim 34 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

99. multi cycle indirect-evaporation cooling water installations according to claim 35 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

100. multi cycle indirect-evaporation cooling water installations according to claim 36 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

The 101. multi cycle indirect-evaporation cooling water installations according to claim 37 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

The 102. multi cycle indirect-evaporation cooling water installations according to claim 38 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

The 103. multi cycle indirect-evaporation cooling water installations according to claim 39 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

104. multi cycle indirect-evaporation cooling water installations according to claim 40 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

105. multi cycle indirect-evaporation cooling water installations according to claim 41 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

106. multi cycle indirect-evaporation cooling water installations according to claim 42 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

107. multi cycle indirect-evaporation cooling water installations according to claim 43 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

108. multi cycle indirect-evaporation cooling water installations according to claim 44 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

109. multi cycle indirect-evaporation cooling water installations according to claim 45 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

110. multi cycle indirect-evaporation cooling water installations according to claim 46 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

111. multi cycle indirect-evaporation cooling water installations according to claim 47 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

112. multi cycle indirect-evaporation cooling water installations according to claim 48 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

113. multi cycle indirect-evaporation cooling water installations according to claim 49 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

114. multi cycle indirect-evaporation cooling water installations according to claim 50 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

115. multi cycle indirect-evaporation cooling water installations according to claim 51 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

116. multi cycle indirect-evaporation cooling water installations according to claim 52 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

117. multi cycle indirect-evaporation cooling water installations according to claim 53 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

118. multi cycle indirect-evaporation cooling water installations according to claim 54 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

119. multi cycle indirect-evaporation cooling water installations according to claim 55 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

120. multi cycle indirect-evaporation cooling water installations according to claim 56 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

121. multi cycle indirect-evaporation cooling water installations according to claim 57 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

122. multi cycle indirect-evaporation cooling water installations according to claim 58 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

123. multi cycle indirect-evaporation cooling water installations according to claim 59 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

124. multi cycle indirect-evaporation cooling water installations according to claim 60 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

125. multi cycle indirect-evaporation cooling water installations according to claim 61 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

126. multi cycle indirect-evaporation cooling water installations according to claim 62 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

127. multi cycle indirect-evaporation cooling water installations according to claim 63 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

128. multi cycle indirect-evaporation cooling water installations according to claim 64 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

129. multi cycle indirect-evaporation cooling water installations according to claim 65 are it is characterised in that described circulation supplies cold water Device also includes the 3rd user's heat-exchange end, and the water inlet of the 3rd user's heat-exchange end is communicated with the outlet of the second feed pipe, and the 3rd The outlet of user's heat-exchange end is communicated with the water inlet of the second spray equipment by pipeline.

130. multi cycle indirect-evaporation cooling water installations according to claim 1 and 2 are it is characterised in that described circulation cooling Water installations also include the 3rd circulation and supply water-cooling device and the second surface cooler, are provided with the second surface cooler in the second air intake port, 3rd circulation includes the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing sets There are the 3rd air intake port and the 3rd water-cooling device exhaust outlet end, in the 3rd water-cooling device housing, the 3rd sweat cooling is installed and fills out Material, the top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd circulation Water tank, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the going out of the 3rd sweat cooling filler Air port is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd confession with the 3rd circulating pump Water pipe is communicated with the water inlet of the second surface cooler, and the outlet of the second surface cooler passes through the 3rd return pipe and the 3rd spray equipment Water inlet communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

131. multi cycle indirect-evaporation cooling water installations according to claim 3 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

132. multi cycle indirect-evaporation cooling water installations according to claim 4 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

133. multi cycle indirect-evaporation cooling water installations according to claim 5 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

134. multi cycle indirect-evaporation cooling water installations according to claim 6 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

135. multi cycle indirect-evaporation cooling water installations according to claim 7 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

136. multi cycle indirect-evaporation cooling water installations according to claim 8 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

137. multi cycle indirect-evaporation cooling water installations according to claim 9 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

138. multi cycle indirect-evaporation cooling water installations according to claim 10 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

139. multi cycle indirect-evaporation cooling water installations according to claim 11 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

140. multi cycle indirect-evaporation cooling water installations according to claim 12 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

141. multi cycle indirect-evaporation cooling water installations according to claim 13 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

142. multi cycle indirect-evaporation cooling water installations according to claim 14 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

143. multi cycle indirect-evaporation cooling water installations according to claim 15 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

144. multi cycle indirect-evaporation cooling water installations according to claim 16 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

145. multi cycle indirect-evaporation cooling water installations according to claim 17 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

146. multi cycle indirect-evaporation cooling water installations according to claim 18 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

147. multi cycle indirect-evaporation cooling water installations according to claim 19 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

148. multi cycle indirect-evaporation cooling water installations according to claim 20 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

149. multi cycle indirect-evaporation cooling water installations according to claim 21 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

150. multi cycle indirect-evaporation cooling water installations according to claim 22 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

151. multi cycle indirect-evaporation cooling water installations according to claim 23 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

152. multi cycle indirect-evaporation cooling water installations according to claim 24 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

153. multi cycle indirect-evaporation cooling water installations according to claim 25 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

154. multi cycle indirect-evaporation cooling water installations according to claim 26 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

155. multi cycle indirect-evaporation cooling water installations according to claim 27 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

156. multi cycle indirect-evaporation cooling water installations according to claim 28 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

157. multi cycle indirect-evaporation cooling water installations according to claim 29 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

158. multi cycle indirect-evaporation cooling water installations according to claim 30 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

159. multi cycle indirect-evaporation cooling water installations according to claim 31 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

160. multi cycle indirect-evaporation cooling water installations according to claim 32 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

161. multi cycle indirect-evaporation cooling water installations according to claim 33 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

162. multi cycle indirect-evaporation cooling water installations according to claim 34 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

163. multi cycle indirect-evaporation cooling water installations according to claim 35 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

164. multi cycle indirect-evaporation cooling water installations according to claim 36 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

The 165. multi cycle indirect-evaporation cooling water installations according to claim 37 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

The 166. multi cycle indirect-evaporation cooling water installations according to claim 38 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

The 167. multi cycle indirect-evaporation cooling water installations according to claim 39 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

168. multi cycle indirect-evaporation cooling water installations according to claim 40 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

169. multi cycle indirect-evaporation cooling water installations according to claim 41 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

170. multi cycle indirect-evaporation cooling water installations according to claim 42 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

171. multi cycle indirect-evaporation cooling water installations according to claim 43 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

172. multi cycle indirect-evaporation cooling water installations according to claim 44 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

173. multi cycle indirect-evaporation cooling water installations according to claim 45 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

174. multi cycle indirect-evaporation cooling water installations according to claim 46 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

175. multi cycle indirect-evaporation cooling water installations according to claim 47 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

176. multi cycle indirect-evaporation cooling water installations according to claim 48 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

177. multi cycle indirect-evaporation cooling water installations according to claim 49 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

178. multi cycle indirect-evaporation cooling water installations according to claim 50 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

179. multi cycle indirect-evaporation cooling water installations according to claim 51 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

180. multi cycle indirect-evaporation cooling water installations according to claim 52 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

181. multi cycle indirect-evaporation cooling water installations according to claim 53 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

182. multi cycle indirect-evaporation cooling water installations according to claim 54 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

183. multi cycle indirect-evaporation cooling water installations according to claim 55 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

184. multi cycle indirect-evaporation cooling water installations according to claim 56 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

185. multi cycle indirect-evaporation cooling water installations according to claim 57 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

186. multi cycle indirect-evaporation cooling water installations according to claim 58 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

187. multi cycle indirect-evaporation cooling water installations according to claim 59 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

188. multi cycle indirect-evaporation cooling water installations according to claim 60 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

189. multi cycle indirect-evaporation cooling water installations according to claim 61 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

190. multi cycle indirect-evaporation cooling water installations according to claim 62 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

191. multi cycle indirect-evaporation cooling water installations according to claim 63 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

192. multi cycle indirect-evaporation cooling water installations according to claim 64 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

193. multi cycle indirect-evaporation cooling water installations according to claim 65 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

194. multi cycle indirect-evaporation cooling water installations according to claim 66 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

195. multi cycle indirect-evaporation cooling water installations according to claim 67 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

196. multi cycle indirect-evaporation cooling water installations according to claim 68 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

197. multi cycle indirect-evaporation cooling water installations according to claim 69 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

198. multi cycle indirect-evaporation cooling water installations according to claim 70 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

The 199. multi cycle indirect-evaporation cooling water installations according to claim 71 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

The 200. multi cycle indirect-evaporation cooling water installations according to claim 72 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

The 201. multi cycle indirect-evaporation cooling water installations according to claim 73 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

The 202. multi cycle indirect-evaporation cooling water installations according to claim 74 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

The 203. multi cycle indirect-evaporation cooling water installations according to claim 75 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

The 204. multi cycle indirect-evaporation cooling water installations according to claim 76 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

The 205. multi cycle indirect-evaporation cooling water installations according to claim 77 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

The 206. multi cycle indirect-evaporation cooling water installations according to claim 78 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

The 207. multi cycle indirect-evaporation cooling water installations according to claim 79 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

208. according to Claim 8 the multi cycle indirect-evaporation cooling water installations described in 0 it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

209. according to Claim 8 the multi cycle indirect-evaporation cooling water installations described in 1 it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

210. according to Claim 8 the multi cycle indirect-evaporation cooling water installations described in 2 it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

211. according to Claim 8 the multi cycle indirect-evaporation cooling water installations described in 3 it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

212. according to Claim 8 the multi cycle indirect-evaporation cooling water installations described in 4 it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

213. according to Claim 8 the multi cycle indirect-evaporation cooling water installations described in 5 it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

214. according to Claim 8 the multi cycle indirect-evaporation cooling water installations described in 6 it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

215. according to Claim 8 the multi cycle indirect-evaporation cooling water installations described in 7 it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

216. according to Claim 8 the multi cycle indirect-evaporation cooling water installations described in 8 it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

217. according to Claim 8 the multi cycle indirect-evaporation cooling water installations described in 9 it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

The 218. multi cycle indirect-evaporation cooling water installations according to claim 90 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

The 219. multi cycle indirect-evaporation cooling water installations according to claim 91 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

The 220. multi cycle indirect-evaporation cooling water installations according to claim 92 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

The 221. multi cycle indirect-evaporation cooling water installations according to claim 93 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

The 222. multi cycle indirect-evaporation cooling water installations according to claim 94 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

The 223. multi cycle indirect-evaporation cooling water installations according to claim 95 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

The 224. multi cycle indirect-evaporation cooling water installations according to claim 96 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

The 225. multi cycle indirect-evaporation cooling water installations according to claim 97 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

The 226. multi cycle indirect-evaporation cooling water installations according to claim 98 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

The 227. multi cycle indirect-evaporation cooling water installations according to claim 99 are it is characterised in that described circulation supplies cold water Device also includes the 3rd circulation and supplies water-cooling device and the second surface cooler, is provided with the second surface cooler in the second air intake port, the Three circulations include the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing is provided with 3rd air intake port and the 3rd water-cooling device exhaust outlet end, are provided with the 3rd sweat cooling filler in the 3rd water-cooling device housing, The top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd recirculated water Case, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the air-out of the 3rd sweat cooling filler Mouth is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd water supply with the 3rd circulating pump Pipe communicates with the water inlet of the second surface cooler, and the outlet of the second surface cooler is entered by the 3rd return pipe and the 3rd spray equipment The mouth of a river communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

228. multi cycle indirect-evaporation cooling water installations according to claim 100 are it is characterised in that described circulation cooling Water installations also include the 3rd circulation and supply water-cooling device and the second surface cooler, are provided with the second surface cooler in the second air intake port, 3rd circulation includes the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing sets There are the 3rd air intake port and the 3rd water-cooling device exhaust outlet end, in the 3rd water-cooling device housing, the 3rd sweat cooling is installed and fills out Material, the top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd circulation Water tank, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the going out of the 3rd sweat cooling filler Air port is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd confession with the 3rd circulating pump Water pipe is communicated with the water inlet of the second surface cooler, and the outlet of the second surface cooler passes through the 3rd return pipe and the 3rd spray equipment Water inlet communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

229. multi cycle indirect-evaporation cooling water installations according to claim 101 are it is characterised in that described circulation cooling Water installations also include the 3rd circulation and supply water-cooling device and the second surface cooler, are provided with the second surface cooler in the second air intake port, 3rd circulation includes the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing sets There are the 3rd air intake port and the 3rd water-cooling device exhaust outlet end, in the 3rd water-cooling device housing, the 3rd sweat cooling is installed and fills out Material, the top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd circulation Water tank, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the going out of the 3rd sweat cooling filler Air port is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd confession with the 3rd circulating pump Water pipe is communicated with the water inlet of the second surface cooler, and the outlet of the second surface cooler passes through the 3rd return pipe and the 3rd spray equipment Water inlet communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

230. multi cycle indirect-evaporation cooling water installations according to claim 102 are it is characterised in that described circulation cooling Water installations also include the 3rd circulation and supply water-cooling device and the second surface cooler, are provided with the second surface cooler in the second air intake port, 3rd circulation includes the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing sets There are the 3rd air intake port and the 3rd water-cooling device exhaust outlet end, in the 3rd water-cooling device housing, the 3rd sweat cooling is installed and fills out Material, the top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd circulation Water tank, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the going out of the 3rd sweat cooling filler Air port is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd confession with the 3rd circulating pump Water pipe is communicated with the water inlet of the second surface cooler, and the outlet of the second surface cooler passes through the 3rd return pipe and the 3rd spray equipment Water inlet communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

231. multi cycle indirect-evaporation cooling water installations according to claim 103 are it is characterised in that described circulation cooling Water installations also include the 3rd circulation and supply water-cooling device and the second surface cooler, are provided with the second surface cooler in the second air intake port, 3rd circulation includes the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing sets There are the 3rd air intake port and the 3rd water-cooling device exhaust outlet end, in the 3rd water-cooling device housing, the 3rd sweat cooling is installed and fills out Material, the top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd circulation Water tank, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the going out of the 3rd sweat cooling filler Air port is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd confession with the 3rd circulating pump Water pipe is communicated with the water inlet of the second surface cooler, and the outlet of the second surface cooler passes through the 3rd return pipe and the 3rd spray equipment Water inlet communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

232. multi cycle indirect-evaporation cooling water installations according to claim 104 are it is characterised in that described circulation cooling Water installations also include the 3rd circulation and supply water-cooling device and the second surface cooler, are provided with the second surface cooler in the second air intake port, 3rd circulation includes the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing sets There are the 3rd air intake port and the 3rd water-cooling device exhaust outlet end, in the 3rd water-cooling device housing, the 3rd sweat cooling is installed and fills out Material, the top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd circulation Water tank, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the going out of the 3rd sweat cooling filler Air port is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd confession with the 3rd circulating pump Water pipe is communicated with the water inlet of the second surface cooler, and the outlet of the second surface cooler passes through the 3rd return pipe and the 3rd spray equipment Water inlet communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

233. multi cycle indirect-evaporation cooling water installations according to claim 105 are it is characterised in that described circulation cooling Water installations also include the 3rd circulation and supply water-cooling device and the second surface cooler, are provided with the second surface cooler in the second air intake port, 3rd circulation includes the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing sets There are the 3rd air intake port and the 3rd water-cooling device exhaust outlet end, in the 3rd water-cooling device housing, the 3rd sweat cooling is installed and fills out Material, the top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd circulation Water tank, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the going out of the 3rd sweat cooling filler Air port is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd confession with the 3rd circulating pump Water pipe is communicated with the water inlet of the second surface cooler, and the outlet of the second surface cooler passes through the 3rd return pipe and the 3rd spray equipment Water inlet communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

234. multi cycle indirect-evaporation cooling water installations according to claim 106 are it is characterised in that described circulation cooling Water installations also include the 3rd circulation and supply water-cooling device and the second surface cooler, are provided with the second surface cooler in the second air intake port, 3rd circulation includes the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing sets There are the 3rd air intake port and the 3rd water-cooling device exhaust outlet end, in the 3rd water-cooling device housing, the 3rd sweat cooling is installed and fills out Material, the top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd circulation Water tank, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the going out of the 3rd sweat cooling filler Air port is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd confession with the 3rd circulating pump Water pipe is communicated with the water inlet of the second surface cooler, and the outlet of the second surface cooler passes through the 3rd return pipe and the 3rd spray equipment Water inlet communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

235. multi cycle indirect-evaporation cooling water installations according to claim 107 are it is characterised in that described circulation cooling Water installations also include the 3rd circulation and supply water-cooling device and the second surface cooler, are provided with the second surface cooler in the second air intake port, 3rd circulation includes the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing sets There are the 3rd air intake port and the 3rd water-cooling device exhaust outlet end, in the 3rd water-cooling device housing, the 3rd sweat cooling is installed and fills out Material, the top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd circulation Water tank, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the going out of the 3rd sweat cooling filler Air port is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd confession with the 3rd circulating pump Water pipe is communicated with the water inlet of the second surface cooler, and the outlet of the second surface cooler passes through the 3rd return pipe and the 3rd spray equipment Water inlet communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

236. multi cycle indirect-evaporation cooling water installations according to claim 108 are it is characterised in that described circulation cooling Water installations also include the 3rd circulation and supply water-cooling device and the second surface cooler, are provided with the second surface cooler in the second air intake port, 3rd circulation includes the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing sets There are the 3rd air intake port and the 3rd water-cooling device exhaust outlet end, in the 3rd water-cooling device housing, the 3rd sweat cooling is installed and fills out Material, the top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd circulation Water tank, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the going out of the 3rd sweat cooling filler Air port is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd confession with the 3rd circulating pump Water pipe is communicated with the water inlet of the second surface cooler, and the outlet of the second surface cooler passes through the 3rd return pipe and the 3rd spray equipment Water inlet communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

237. multi cycle indirect-evaporation cooling water installations according to claim 109 are it is characterised in that described circulation cooling Water installations also include the 3rd circulation and supply water-cooling device and the second surface cooler, are provided with the second surface cooler in the second air intake port, 3rd circulation includes the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing sets There are the 3rd air intake port and the 3rd water-cooling device exhaust outlet end, in the 3rd water-cooling device housing, the 3rd sweat cooling is installed and fills out Material, the top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd circulation Water tank, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the going out of the 3rd sweat cooling filler Air port is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd confession with the 3rd circulating pump Water pipe is communicated with the water inlet of the second surface cooler, and the outlet of the second surface cooler passes through the 3rd return pipe and the 3rd spray equipment Water inlet communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

238. multi cycle indirect-evaporation cooling water installations according to claim 110 are it is characterised in that described circulation cooling Water installations also include the 3rd circulation and supply water-cooling device and the second surface cooler, are provided with the second surface cooler in the second air intake port, 3rd circulation includes the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing sets There are the 3rd air intake port and the 3rd water-cooling device exhaust outlet end, in the 3rd water-cooling device housing, the 3rd sweat cooling is installed and fills out Material, the top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd circulation Water tank, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the going out of the 3rd sweat cooling filler Air port is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd confession with the 3rd circulating pump Water pipe is communicated with the water inlet of the second surface cooler, and the outlet of the second surface cooler passes through the 3rd return pipe and the 3rd spray equipment Water inlet communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

239. multi cycle indirect-evaporation cooling water installations according to claim 111 are it is characterised in that described circulation cooling Water installations also include the 3rd circulation and supply water-cooling device and the second surface cooler, are provided with the second surface cooler in the second air intake port, 3rd circulation includes the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing sets There are the 3rd air intake port and the 3rd water-cooling device exhaust outlet end, in the 3rd water-cooling device housing, the 3rd sweat cooling is installed and fills out Material, the top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd circulation Water tank, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the going out of the 3rd sweat cooling filler Air port is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd confession with the 3rd circulating pump Water pipe is communicated with the water inlet of the second surface cooler, and the outlet of the second surface cooler passes through the 3rd return pipe and the 3rd spray equipment Water inlet communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

240. multi cycle indirect-evaporation cooling water installations according to claim 112 are it is characterised in that described circulation cooling Water installations also include the 3rd circulation and supply water-cooling device and the second surface cooler, are provided with the second surface cooler in the second air intake port, 3rd circulation includes the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing sets There are the 3rd air intake port and the 3rd water-cooling device exhaust outlet end, in the 3rd water-cooling device housing, the 3rd sweat cooling is installed and fills out Material, the top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd circulation Water tank, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the going out of the 3rd sweat cooling filler Air port is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd confession with the 3rd circulating pump Water pipe is communicated with the water inlet of the second surface cooler, and the outlet of the second surface cooler passes through the 3rd return pipe and the 3rd spray equipment Water inlet communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

241. multi cycle indirect-evaporation cooling water installations according to claim 113 are it is characterised in that described circulation cooling Water installations also include the 3rd circulation and supply water-cooling device and the second surface cooler, are provided with the second surface cooler in the second air intake port, 3rd circulation includes the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing sets There are the 3rd air intake port and the 3rd water-cooling device exhaust outlet end, in the 3rd water-cooling device housing, the 3rd sweat cooling is installed and fills out Material, the top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd circulation Water tank, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the going out of the 3rd sweat cooling filler Air port is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd confession with the 3rd circulating pump Water pipe is communicated with the water inlet of the second surface cooler, and the outlet of the second surface cooler passes through the 3rd return pipe and the 3rd spray equipment Water inlet communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

242. multi cycle indirect-evaporation cooling water installations according to claim 114 are it is characterised in that described circulation cooling Water installations also include the 3rd circulation and supply water-cooling device and the second surface cooler, are provided with the second surface cooler in the second air intake port, 3rd circulation includes the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing sets There are the 3rd air intake port and the 3rd water-cooling device exhaust outlet end, in the 3rd water-cooling device housing, the 3rd sweat cooling is installed and fills out Material, the top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd circulation Water tank, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the going out of the 3rd sweat cooling filler Air port is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd confession with the 3rd circulating pump Water pipe is communicated with the water inlet of the second surface cooler, and the outlet of the second surface cooler passes through the 3rd return pipe and the 3rd spray equipment Water inlet communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

243. multi cycle indirect-evaporation cooling water installations according to claim 115 are it is characterised in that described circulation cooling Water installations also include the 3rd circulation and supply water-cooling device and the second surface cooler, are provided with the second surface cooler in the second air intake port, 3rd circulation includes the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing sets There are the 3rd air intake port and the 3rd water-cooling device exhaust outlet end, in the 3rd water-cooling device housing, the 3rd sweat cooling is installed and fills out Material, the top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd circulation Water tank, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the going out of the 3rd sweat cooling filler Air port is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd confession with the 3rd circulating pump Water pipe is communicated with the water inlet of the second surface cooler, and the outlet of the second surface cooler passes through the 3rd return pipe and the 3rd spray equipment Water inlet communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

244. multi cycle indirect-evaporation cooling water installations according to claim 116 are it is characterised in that described circulation cooling Water installations also include the 3rd circulation and supply water-cooling device and the second surface cooler, are provided with the second surface cooler in the second air intake port, 3rd circulation includes the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing sets There are the 3rd air intake port and the 3rd water-cooling device exhaust outlet end, in the 3rd water-cooling device housing, the 3rd sweat cooling is installed and fills out Material, the top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd circulation Water tank, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the going out of the 3rd sweat cooling filler Air port is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd confession with the 3rd circulating pump Water pipe is communicated with the water inlet of the second surface cooler, and the outlet of the second surface cooler passes through the 3rd return pipe and the 3rd spray equipment Water inlet communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

245. multi cycle indirect-evaporation cooling water installations according to claim 117 are it is characterised in that described circulation cooling Water installations also include the 3rd circulation and supply water-cooling device and the second surface cooler, are provided with the second surface cooler in the second air intake port, 3rd circulation includes the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing sets There are the 3rd air intake port and the 3rd water-cooling device exhaust outlet end, in the 3rd water-cooling device housing, the 3rd sweat cooling is installed and fills out Material, the top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd circulation Water tank, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the going out of the 3rd sweat cooling filler Air port is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd confession with the 3rd circulating pump Water pipe is communicated with the water inlet of the second surface cooler, and the outlet of the second surface cooler passes through the 3rd return pipe and the 3rd spray equipment Water inlet communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

246. multi cycle indirect-evaporation cooling water installations according to claim 118 are it is characterised in that described circulation cooling Water installations also include the 3rd circulation and supply water-cooling device and the second surface cooler, are provided with the second surface cooler in the second air intake port, 3rd circulation includes the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing sets There are the 3rd air intake port and the 3rd water-cooling device exhaust outlet end, in the 3rd water-cooling device housing, the 3rd sweat cooling is installed and fills out Material, the top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd circulation Water tank, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the going out of the 3rd sweat cooling filler Air port is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd confession with the 3rd circulating pump Water pipe is communicated with the water inlet of the second surface cooler, and the outlet of the second surface cooler passes through the 3rd return pipe and the 3rd spray equipment Water inlet communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

247. multi cycle indirect-evaporation cooling water installations according to claim 119 are it is characterised in that described circulation cooling Water installations also include the 3rd circulation and supply water-cooling device and the second surface cooler, are provided with the second surface cooler in the second air intake port, 3rd circulation includes the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing sets There are the 3rd air intake port and the 3rd water-cooling device exhaust outlet end, in the 3rd water-cooling device housing, the 3rd sweat cooling is installed and fills out Material, the top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd circulation Water tank, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the going out of the 3rd sweat cooling filler Air port is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd confession with the 3rd circulating pump Water pipe is communicated with the water inlet of the second surface cooler, and the outlet of the second surface cooler passes through the 3rd return pipe and the 3rd spray equipment Water inlet communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

248. multi cycle indirect-evaporation cooling water installations according to claim 120 are it is characterised in that described circulation cooling Water installations also include the 3rd circulation and supply water-cooling device and the second surface cooler, are provided with the second surface cooler in the second air intake port, 3rd circulation includes the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing sets There are the 3rd air intake port and the 3rd water-cooling device exhaust outlet end, in the 3rd water-cooling device housing, the 3rd sweat cooling is installed and fills out Material, the top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd circulation Water tank, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the going out of the 3rd sweat cooling filler Air port is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd confession with the 3rd circulating pump Water pipe is communicated with the water inlet of the second surface cooler, and the outlet of the second surface cooler passes through the 3rd return pipe and the 3rd spray equipment Water inlet communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

249. multi cycle indirect-evaporation cooling water installations according to claim 121 are it is characterised in that described circulation cooling Water installations also include the 3rd circulation and supply water-cooling device and the second surface cooler, are provided with the second surface cooler in the second air intake port, 3rd circulation includes the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing sets There are the 3rd air intake port and the 3rd water-cooling device exhaust outlet end, in the 3rd water-cooling device housing, the 3rd sweat cooling is installed and fills out Material, the top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd circulation Water tank, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the going out of the 3rd sweat cooling filler Air port is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd confession with the 3rd circulating pump Water pipe is communicated with the water inlet of the second surface cooler, and the outlet of the second surface cooler passes through the 3rd return pipe and the 3rd spray equipment Water inlet communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

250. multi cycle indirect-evaporation cooling water installations according to claim 122 are it is characterised in that described circulation cooling Water installations also include the 3rd circulation and supply water-cooling device and the second surface cooler, are provided with the second surface cooler in the second air intake port, 3rd circulation includes the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing sets There are the 3rd air intake port and the 3rd water-cooling device exhaust outlet end, in the 3rd water-cooling device housing, the 3rd sweat cooling is installed and fills out Material, the top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd circulation Water tank, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the going out of the 3rd sweat cooling filler Air port is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd confession with the 3rd circulating pump Water pipe is communicated with the water inlet of the second surface cooler, and the outlet of the second surface cooler passes through the 3rd return pipe and the 3rd spray equipment Water inlet communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

251. multi cycle indirect-evaporation cooling water installations according to claim 123 are it is characterised in that described circulation cooling Water installations also include the 3rd circulation and supply water-cooling device and the second surface cooler, are provided with the second surface cooler in the second air intake port, 3rd circulation includes the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing sets There are the 3rd air intake port and the 3rd water-cooling device exhaust outlet end, in the 3rd water-cooling device housing, the 3rd sweat cooling is installed and fills out Material, the top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd circulation Water tank, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the going out of the 3rd sweat cooling filler Air port is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd confession with the 3rd circulating pump Water pipe is communicated with the water inlet of the second surface cooler, and the outlet of the second surface cooler passes through the 3rd return pipe and the 3rd spray equipment Water inlet communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

252. multi cycle indirect-evaporation cooling water installations according to claim 124 are it is characterised in that described circulation cooling Water installations also include the 3rd circulation and supply water-cooling device and the second surface cooler, are provided with the second surface cooler in the second air intake port, 3rd circulation includes the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing sets There are the 3rd air intake port and the 3rd water-cooling device exhaust outlet end, in the 3rd water-cooling device housing, the 3rd sweat cooling is installed and fills out Material, the top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd circulation Water tank, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the going out of the 3rd sweat cooling filler Air port is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd confession with the 3rd circulating pump Water pipe is communicated with the water inlet of the second surface cooler, and the outlet of the second surface cooler passes through the 3rd return pipe and the 3rd spray equipment Water inlet communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

253. multi cycle indirect-evaporation cooling water installations according to claim 125 are it is characterised in that described circulation cooling Water installations also include the 3rd circulation and supply water-cooling device and the second surface cooler, are provided with the second surface cooler in the second air intake port, 3rd circulation includes the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing sets There are the 3rd air intake port and the 3rd water-cooling device exhaust outlet end, in the 3rd water-cooling device housing, the 3rd sweat cooling is installed and fills out Material, the top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd circulation Water tank, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the going out of the 3rd sweat cooling filler Air port is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd confession with the 3rd circulating pump Water pipe is communicated with the water inlet of the second surface cooler, and the outlet of the second surface cooler passes through the 3rd return pipe and the 3rd spray equipment Water inlet communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

254. multi cycle indirect-evaporation cooling water installations according to claim 126 are it is characterised in that described circulation cooling Water installations also include the 3rd circulation and supply water-cooling device and the second surface cooler, are provided with the second surface cooler in the second air intake port, 3rd circulation includes the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing sets There are the 3rd air intake port and the 3rd water-cooling device exhaust outlet end, in the 3rd water-cooling device housing, the 3rd sweat cooling is installed and fills out Material, the top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd circulation Water tank, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the going out of the 3rd sweat cooling filler Air port is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd confession with the 3rd circulating pump Water pipe is communicated with the water inlet of the second surface cooler, and the outlet of the second surface cooler passes through the 3rd return pipe and the 3rd spray equipment Water inlet communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

255. multi cycle indirect-evaporation cooling water installations according to claim 127 are it is characterised in that described circulation cooling Water installations also include the 3rd circulation and supply water-cooling device and the second surface cooler, are provided with the second surface cooler in the second air intake port, 3rd circulation includes the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing sets There are the 3rd air intake port and the 3rd water-cooling device exhaust outlet end, in the 3rd water-cooling device housing, the 3rd sweat cooling is installed and fills out Material, the top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd circulation Water tank, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the going out of the 3rd sweat cooling filler Air port is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd confession with the 3rd circulating pump Water pipe is communicated with the water inlet of the second surface cooler, and the outlet of the second surface cooler passes through the 3rd return pipe and the 3rd spray equipment Water inlet communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

256. multi cycle indirect-evaporation cooling water installations according to claim 128 are it is characterised in that described circulation cooling Water installations also include the 3rd circulation and supply water-cooling device and the second surface cooler, are provided with the second surface cooler in the second air intake port, 3rd circulation includes the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing sets There are the 3rd air intake port and the 3rd water-cooling device exhaust outlet end, in the 3rd water-cooling device housing, the 3rd sweat cooling is installed and fills out Material, the top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd circulation Water tank, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the going out of the 3rd sweat cooling filler Air port is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd confession with the 3rd circulating pump Water pipe is communicated with the water inlet of the second surface cooler, and the outlet of the second surface cooler passes through the 3rd return pipe and the 3rd spray equipment Water inlet communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

257. multi cycle indirect-evaporation cooling water installations according to claim 129 are it is characterised in that described circulation cooling Water installations also include the 3rd circulation and supply water-cooling device and the second surface cooler, are provided with the second surface cooler in the second air intake port, 3rd circulation includes the 3rd water-cooling device housing and the 3rd sweat cooling filler for water-cooling device, and the 3rd water-cooling device housing sets There are the 3rd air intake port and the 3rd water-cooling device exhaust outlet end, in the 3rd water-cooling device housing, the 3rd sweat cooling is installed and fills out Material, the top of the 3rd sweat cooling filler is provided with the 3rd spray equipment, and the lower section of the 3rd sweat cooling filler is provided with the 3rd circulation Water tank, the air inlet of the 3rd sweat cooling filler is communicated with outdoor by the 3rd air intake port, the going out of the 3rd sweat cooling filler Air port is communicated with the 3rd water-cooling device exhaust outlet end；The outlet of the 3rd cyclic water tank is by the 3rd confession with the 3rd circulating pump Water pipe is communicated with the water inlet of the second surface cooler, and the outlet of the second surface cooler passes through the 3rd return pipe and the 3rd spray equipment Water inlet communicates, and is provided with exhaust blower at the 3rd water-cooling device exhaust outlet end.

A kind of 258. usage rights require the multi cycle indirect-evaporation cooling water installations of any one claim described in 1 to 257 Cold water preparation method supply water-cooling device it is characterised in that outdoor wind enters second circulation, supply water-cooling device in second circulation Second shower water spraying with the second spray equipment in sweat cooling filler occurs caloic to exchange, and the high temperature cold water of preparation falls into the Two-cycle case, the high temperature cold water in second circulation water tank flows back into the second spray equipment formation after the first surface cooler and follows Ring, the first surface cooler makes entrance first circulation supply the outdoor air cooling of water-cooling device, and cooled rear chamber exogenous wind enters first circulation For water-cooling device, supply the shower water with the first spray equipment ejection in the first sweat cooling filler of water-cooling device in first circulation Caloic is occurred to exchange, the low-temperature cold water of preparation falls into first circulation water tank, by the low-temperature cold water supply in first circulation water tank the One user's heat-exchange end uses, and takes away the backwater after first user heat-exchange end heat and flows back into the first spray equipment formation circulation.

The 259. cold water preparation methoies according to claim 258 are it is characterised in that arrange the 3rd in the second air intake port Surface cooler, takes away the backwater after the first surface cooler heat and first passes through the 3rd surface cooler, make the outdoor by the 3rd surface cooler air-cooled But, return in the second spray equipment through the current of the 3rd surface cooler afterwards.

The 260. cold water preparation methoies according to claim 258 are it is characterised in that arrange the 4th in the second air intake port Surface cooler, takes away the backwater after first user heat-exchange end heat and first passes through the 4th surface cooler, make the outdoor by the 4th surface cooler Air cooling, returns in the first spray equipment through the current of the 4th surface cooler afterwards.

The 261. cold water preparation methoies according to claim 260 are it is characterised in that the air inlet in the 4th surface cooler sets Put the 5th surface cooler, take away the backwater after the first surface cooler heat and first pass through the 5th surface cooler, make the room by the 5th surface cooler Exogenous wind cools down, and is further cooled and sends into second circulation supply water-cooling device when the outdoor wind after cooling is by four surface coolers, Return in the second spray equipment through the current of the 5th surface cooler afterwards.

262. cold water preparation methoies according to claim 258 or 259 or 260 or 261 are it is characterised in that cold in the first table 6th surface cooler is set between device and the first air intake port, and second circulation supplies the low-temperature cold water part supply of water-cooling device preparation First user heat-exchange end uses, and part supply the 6th surface cooler uses, and the outdoor wind after the first surface cooler cooling is by the 6th Surface cooler cools down further and sends into first circulation and supplies water-cooling device, takes away first user heat-exchange end and the 6th surface cooler heat afterwards Backwater after amount flow back in the first spray equipment.

263. cold water preparation methoies according to claim 258 or 259 or 260 or 261 are it is characterised in that by setting the Three user's heat-exchange end, second circulation are used for high temperature cold water part supply the first surface cooler prepared by water-cooling device, one Divide supply the 3rd user's heat-exchange end to use, take away the backwater after the first surface cooler and the 3rd user's heat-exchange end heat afterwards and flow back into In second spray equipment.

The 264. cold water preparation methoies according to claim 262, will it is characterised in that passing through to arrange the 3rd user's heat-exchange end Second circulation uses for high temperature cold water part supply the first surface cooler prepared by water-cooling device, and a part supply the 3rd user change Hot junction uses, and takes away the backwater after the first surface cooler and the 3rd user's heat-exchange end heat afterwards and flow back in the second spray equipment.

265. cold water preparation methoies according to claim 258 or 259 or 260 or 261 are it is characterised in that by setting the Three circulations supply water-cooling device, arrange the second surface cooler in the second air intake port, and outdoor wind enters the 3rd circulation and supplies water-cooling device, The shower water spraying with the 3rd spray equipment in the 3rd sweat cooling filler for water-cooling device for the 3rd circulation occurs caloic to hand over Change, the high temperature cold water of preparation falls into the 3rd cyclic water tank；High temperature cold water in 3rd cyclic water tank is passed through the 3rd feed pipe and is flowed into Second surface cooler, makes the outdoor air cooling by the second surface cooler, takes away the backwater after the second surface cooler heat and passes through the 3rd time Water pipe flow back in the 3rd spray equipment and forms circulation.

The 266. cold water preparation methoies according to claim 262 are it is characterised in that filled for cold water by arranging the 3rd circulation Put, the second surface cooler is set in the second air intake port, outdoor wind enters the 3rd circulation and supplies water-cooling device, circulates cooling the 3rd The shower water spraying with the 3rd spray equipment in 3rd sweat cooling filler of water installations occurs caloic to exchange, and the high temperature of preparation is cold Water falls into the 3rd cyclic water tank；High temperature cold water in 3rd cyclic water tank is passed through the 3rd feed pipe and is flowed into the second surface cooler, makes to lead to Cross the outdoor air cooling of the second surface cooler, take away the backwater after the second surface cooler heat and the 3rd spray is flow back into by the 3rd return pipe Form circulation in shower device.

The 267. cold water preparation methoies according to claim 263 are it is characterised in that filled for cold water by arranging the 3rd circulation Put, the second surface cooler is set in the second air intake port, outdoor wind enters the 3rd circulation and supplies water-cooling device, circulates cooling the 3rd The shower water spraying with the 3rd spray equipment in 3rd sweat cooling filler of water installations occurs caloic to exchange, and the high temperature of preparation is cold Water falls into the 3rd cyclic water tank；High temperature cold water in 3rd cyclic water tank is passed through the 3rd feed pipe and is flowed into the second surface cooler, makes to lead to Cross the outdoor air cooling of the second surface cooler, take away the backwater after the second surface cooler heat and the 3rd spray is flow back into by the 3rd return pipe Form circulation in shower device.

The 268. cold water preparation methoies according to claim 264 are it is characterised in that filled for cold water by arranging the 3rd circulation Put, the second surface cooler is set in the second air intake port, outdoor wind enters the 3rd circulation and supplies water-cooling device, circulates cooling the 3rd The shower water spraying with the 3rd spray equipment in 3rd sweat cooling filler of water installations occurs caloic to exchange, and the high temperature of preparation is cold Water falls into the 3rd cyclic water tank；High temperature cold water in 3rd cyclic water tank is passed through the 3rd feed pipe and is flowed into the second surface cooler, makes to lead to Cross the outdoor air cooling of the second surface cooler, take away the backwater after the second surface cooler heat and the 3rd spray is flow back into by the 3rd return pipe Form circulation in shower device.

The 269. cold water preparation methoies according to claim 258 or 259 or 260 or 261 are it is characterised in that carried by setting There is the second user heat-exchange end of second user low-temperature heat exchange section and second user high-temperature heat transfer section, first circulation is supplied water-cooling device The high temperature cold water part supply first user heat-exchange end of preparation uses, and part supply second user low-temperature heat exchange section uses； Second circulation is used for high temperature cold water part supply the first surface cooler prepared by water-cooling device, part supply second user High-temperature heat transfer section uses；Tentatively lowered the temperature by second user high-temperature heat transfer section, second user low-temperature heat exchange section is carried out further Cooling.

270. cold water preparation methoies according to claim 262 are it is characterised in that by being provided with second user low temperature The second user heat-exchange end of heat exchanging segment and second user high-temperature heat transfer section, first circulation is supplied the high temperature cold water of water-cooling device preparation Part supply first user heat-exchange end uses, and part supply second user low-temperature heat exchange section uses；By second circulation cooling High temperature cold water part supply first surface cooler of water installations preparation uses, and part supply second user high-temperature heat transfer section makes With；Tentatively lowered the temperature by second user high-temperature heat transfer section, second user low-temperature heat exchange section is lowered the temperature further.

271. cold water preparation methoies according to claim 263 are it is characterised in that by being provided with second user low temperature The second user heat-exchange end of heat exchanging segment and second user high-temperature heat transfer section, first circulation is supplied the high temperature cold water of water-cooling device preparation Part supply first user heat-exchange end uses, and part supply second user low-temperature heat exchange section uses；By second circulation cooling High temperature cold water part supply first surface cooler of water installations preparation uses, and part supply second user high-temperature heat transfer section makes With；Tentatively lowered the temperature by second user high-temperature heat transfer section, second user low-temperature heat exchange section is lowered the temperature further.

272. cold water preparation methoies according to claim 264 are it is characterised in that by being provided with second user low temperature The second user heat-exchange end of heat exchanging segment and second user high-temperature heat transfer section, first circulation is supplied the high temperature cold water of water-cooling device preparation Part supply first user heat-exchange end uses, and part supply second user low-temperature heat exchange section uses；By second circulation cooling High temperature cold water part supply first surface cooler of water installations preparation uses, and part supply second user high-temperature heat transfer section makes With；Tentatively lowered the temperature by second user high-temperature heat transfer section, second user low-temperature heat exchange section is lowered the temperature further.

273. cold water preparation methoies according to claim 265 are it is characterised in that by being provided with second user low temperature The second user heat-exchange end of heat exchanging segment and second user high-temperature heat transfer section, first circulation is supplied the high temperature cold water of water-cooling device preparation Part supply first user heat-exchange end uses, and part supply second user low-temperature heat exchange section uses；By second circulation cooling High temperature cold water part supply first surface cooler of water installations preparation uses, and part supply second user high-temperature heat transfer section makes With；Tentatively lowered the temperature by second user high-temperature heat transfer section, second user low-temperature heat exchange section is lowered the temperature further.

274. cold water preparation methoies according to claim 266 are it is characterised in that by being provided with second user low temperature The second user heat-exchange end of heat exchanging segment and second user high-temperature heat transfer section, first circulation is supplied the high temperature cold water of water-cooling device preparation Part supply first user heat-exchange end uses, and part supply second user low-temperature heat exchange section uses；By second circulation cooling High temperature cold water part supply first surface cooler of water installations preparation uses, and part supply second user high-temperature heat transfer section makes With；Tentatively lowered the temperature by second user high-temperature heat transfer section, second user low-temperature heat exchange section is lowered the temperature further.

275. cold water preparation methoies according to claim 267 are it is characterised in that by being provided with second user low temperature The second user heat-exchange end of heat exchanging segment and second user high-temperature heat transfer section, first circulation is supplied the high temperature cold water of water-cooling device preparation Part supply first user heat-exchange end uses, and part supply second user low-temperature heat exchange section uses；By second circulation cooling High temperature cold water part supply first surface cooler of water installations preparation uses, and part supply second user high-temperature heat transfer section makes With；Tentatively lowered the temperature by second user high-temperature heat transfer section, second user low-temperature heat exchange section is lowered the temperature further.

276. cold water preparation methoies according to claim 268 are it is characterised in that by being provided with second user low temperature The second user heat-exchange end of heat exchanging segment and second user high-temperature heat transfer section, first circulation is supplied the high temperature cold water of water-cooling device preparation Part supply first user heat-exchange end uses, and part supply second user low-temperature heat exchange section uses；By second circulation cooling High temperature cold water part supply first surface cooler of water installations preparation uses, and part supply second user high-temperature heat transfer section makes With；Tentatively lowered the temperature by second user high-temperature heat transfer section, second user low-temperature heat exchange section is lowered the temperature further.