CN208296338U - The distributed multi-generation system coupled with solar energy - Google Patents
The distributed multi-generation system coupled with solar energy Download PDFInfo
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- CN208296338U CN208296338U CN201820656165.8U CN201820656165U CN208296338U CN 208296338 U CN208296338 U CN 208296338U CN 201820656165 U CN201820656165 U CN 201820656165U CN 208296338 U CN208296338 U CN 208296338U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A30/00—Adapting or protecting infrastructure or their operation
- Y02A30/27—Relating to heating, ventilation or air conditioning [HVAC] technologies
- Y02A30/274—Relating to heating, ventilation or air conditioning [HVAC] technologies using waste energy, e.g. from internal combustion engine
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/40—Solar thermal energy, e.g. solar towers
- Y02E10/44—Heat exchange systems
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02T—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
- Y02T10/00—Road transport of goods or passengers
- Y02T10/10—Internal combustion engine [ICE] based vehicles
- Y02T10/12—Improving ICE efficiencies
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Abstract
The distributed multi-generation system that the utility model discloses a kind of to couple with solar energy, including gas power generation system, afterheat utilizing system, solar energy heating refrigeration system, gas power generation system is connect with afterheat utilizing system, and afterheat utilizing system is connect with solar energy heating refrigeration system.The utility model combines solar energy heating refrigeration system with gas power generation system and afterheat utilizing system, it solves the problems, such as to be passed through the cold source entered the wind in unit noise reduction housing and main equipment room, solves the problems, such as cooling down in jet dynamic control, meet demand of the user to domestic hot-water, refrigeration, heating and steam, system energy consumption is reduced, operational efficiency is improved.
Description
Technical field
The distributed multi-generation system that the utility model relates to a kind of to couple with solar energy belongs to distributed energy technology neck
Domain.
Background technique
Gas internal-combustion engine distributing-supplying-energy system is relative to traditional centralized production of energy and supplying mode (main generation
Sheet form is that high-power station increases power grid) for, it is proximate to user terminal and directly provides a user the medium and small of various forms of energy
Type terminal energy supplying system.
Due to gas internal-combustion engine distributing-supplying-energy system contain gas internal-combustion engine system, residual heat system, peak regulation subsystem,
Heat-exchange system, auxiliary system etc., device category is more, and heat gain from appliance and equipment is larger in existing workshop, needs to be passed through a large amount of cold wind
Reduce temperature in workshop, therefore the ventilation equipment and pipeline amount that design are huge, and in order to improve air inlet and the air draft in workshop
For amount to reduce the temperature in workshop, the lectotype selection of pressure fan and exhaust blower is larger, has thereby resulted in system energy consumption and running cost
With higher.
It is existing in order to guarantee that the gas internal-combustion engine in the system of gas internal-combustion engine distributed energy supply source is capable of the operation of normal table
Air inlet system and exhaust system, in contrast, air inlet system and exhaust system knot would generally be arranged in the housing two sides for being equipped with gas internal-combustion engine by having in technology
Structure is relatively simple, the purpose of cooling is realized by being passed through a large amount of moving airs into housing, but cooling effect is poor;Or it uses
Cooling system is entered the wind, using the absorption installation of electricity refrigeration or gas driven, produces high-grade energy directly low-grade
Cold energy, although using air inlet cooling system can obtain preferable cooling effect, temperature higher period (such as China north
The summer of side) it needs to increase refrigerating capacity, in the electricity consumption spike period, operating cost is also very high.
Utility model content
The distributed multi-generation system that the purpose of the utility model is to provide a kind of to couple with solar energy, by will too
Positive energy thermal-arrest refrigeration system is combined with afterheat utilizing system and gas power generation system, by realizing unit using solar energy resources
The purpose to cool down in noise reduction housing and main equipment room, while four kinds of energy products being provided, meet user to domestic hot-water, refrigeration,
The demand of heating and steam.
In order to solve the above technical problems, the utility model adopts the following technical solutions: a kind of point coupled with solar energy
Cloth multi-generation system, including gas power generation system, afterheat utilizing system, solar energy heating refrigeration system, gas power generation system
Connect with afterheat utilizing system, afterheat utilizing system is connect with solar energy heating refrigeration system, solar energy heating refrigeration system with
Gas power generation system connection, solar energy heating refrigeration system include solar thermal collector, collecting system heat exchanger, hot water storage tank and
Absorption type refrigerating unit, solar thermal collector are connect with collecting system heat exchanger, and collecting system heat exchanger is connect with hot water storage tank,
Hot water storage tank is connect with absorption type refrigerating unit, and absorption type refrigerating unit is connected by the air-intake device of pipeline and gas power generation system
It connects, absorption type refrigerating unit is also connect with the ventilation device of main equipment room.
Solar thermal collector is a kind of special heat exchanger, passes through the sun of absorption for collecting solar radiation heat
Radiations heat energy heats liquid working substance, and useful thermal energy is supplied accumulation of heat by collecting system heat exchanger by the liquid working substance after heating
Water tank, to provide cooling driving heat source for absorption type refrigerating unit.
In the technical solution of the requires of the utility model protection, solar energy heating refrigeration system can be gas power generation system
The air inlet of air inlet and main equipment room provides cold source, and afterheat utilizing system can provide supplemental heat source for solar energy heating refrigeration system,
Enable solar energy heating refrigeration system to provide enough cold sources for the air inlet of gas power generation system, can not only be effectively reduced
The temperature that gas power generation system generates, and it is effectively utilized the low-temperature flue gas of afterheat utilizing system discharge, it is mutual to realize the energy
It mends, avoids the energy dissipation and environmental pollution of the generation of low-temperature flue gas outlet, refrigerating operaton is at low cost.
Solar energy heating refrigeration system further includes control system.By establishing solar energy heating refrigeration system, and by its with
Gas power generation system and afterheat utilizing system are connected, and solve and are passed through the cooling of unit noise reduction housing and the interior air inlet of host and ask
Topic.
In a kind of distributed multi-generation system coupled with solar energy above-mentioned, the afterheat utilizing system includes waste heat pot
Furnace apparatus, condensate tank and steam header, waste heat boiler device pass through pipeline respectively and connect with condensate tank and steam header, steam
Vapour header is connect by steam pipeline with steam user terminal.Enter waste heat benefit by the high-temperature flue gas that jet dynamic control is discharged
With the waste heat boiler device of system, generate the steam that can be supplied outside through waste heat boiler device, the steam of generation by with waste heat boiler
The steam header of device connection is supplied to steam user terminal.
In a kind of distributed multi-generation system coupled with solar energy above-mentioned, cigarette is provided on the waste heat boiler device
Road afterburner.When the steam demand amount of steam user terminal is larger, afterburning can be carried out by opening flue afterburner, using remaining
Excessive flue gas in high-temperature flue gas produced by hot pot furnace apparatus burns, to improve the steam production of waste heat boiler device.
In a kind of distributed multi-generation system coupled with solar energy above-mentioned, the gas power generation system includes combustion gas hair
Motor group, unit noise reduction housing, cylinder sleeve water- to-water heat exchanger and flue gas triple valve, the jet dynamic control are built in unit noise reduction shroud
It in shell, and is connect with cylinder sleeve water- to-water heat exchanger, jet dynamic control also passes through the waste heat pot of flue gas triple valve and afterheat utilizing system
Furnace apparatus connection.
The electricity that jet dynamic control generates, partially for being supplied to entire combustion gas distributed system, extra part is then
It directly feeds user or is sent into power grid.Jet dynamic control can generate two parts heat source, and a part of heat source is jet dynamic control
The high-temperature flue gas of the high-temperature flue gas being discharged in operational process, discharge enters afterheat utilizing system, another portion by flue gas triple valve
The heat source for dividing the high temperature jacket water that heat source is jet dynamic control to generate, and the high temperature jacket water of jet dynamic control passes through cylinder sleeve
Water- to-water heat exchanger generates hot water, and the hot water of generation can provide heating in winter for user, can also be used as absorption system in summer
The driving heat source of device for cooling is freezed.
In a kind of distributed multi-generation system coupled with solar energy above-mentioned, the tail portion of the waste heat boiler device is arranged
There is flue gas heat-exchange unit.Flue gas heat-exchange unit is to be exchanged heat using the low-temperature flue gas of waste heat boiler device tail portion with water at low temperature, can be with
95 DEG C~110 DEG C or so of high-temperature water is generated, high-temperature water can drive absorption type refrigerating unit to freeze.Absorption refrigeration
Device is a kind of hot water operated absorption refrigerating machine.
In a kind of distributed multi-generation system coupled with solar energy above-mentioned, the solar energy heating refrigeration system is also wrapped
It includes and is connected by circulation pipe, a valve and b valve, a valve and b valve are all set in and are connected by circulation on pipe, and the hot water storage tank is connected by circulation
Adapter tube is connect with absorption type refrigerating unit.
In a kind of distributed multi-generation system coupled with solar energy above-mentioned, the pipeline includes return pipe and water supply
It manages, is provided with c valve on the return pipe, d valve is provided on the water supplying pipe.The a valve, b valve, c valve and d valve can be one kind
Triple valve can be Pneumatic three-way valve, be also possible to electric T-shaped valve.The cold water that absorption type refrigerating unit generates is logical through water supplying pipe
It crosses d valve to be delivered in air-intake device and ventilation device, carries out heat exchange with air in air-intake device and ventilation device and form low temperature
Air, then cold water is back to absorption type refrigerating unit through return pipe, forms a kind of closed circulation system.Cryogenic air by into
Wind apparatus enters in unit noise reduction housing, reduces the temperature in unit noise reduction shroud using Cryogenic air.
In a kind of distributed multi-generation system coupled with solar energy above-mentioned, the gas power generation system and solar energy collection
Air-intake device is provided between refrigeration heat system, the air-intake device is arranged on unit noise reduction housing, and air-intake device passes through c valve
It is connect with d valve with absorption type refrigerating unit.
By the absorption type refrigerating unit of solar energy heating refrigeration system to the air inlet of unit noise reduction housing and main equipment room into
Row cooling, is lowered into the inlet air temperature of unit noise reduction housing and main equipment room, guarantees jet dynamic control and the utility model system
System can operate normally.
In a kind of distributed multi-generation system coupled with solar energy above-mentioned, the waste heat boiler device and condensate tank
Between pipeline on be provided with back water pump.
In a kind of distributed multi-generation system coupled with solar energy above-mentioned, the ventilation device leads to c valve and d valve and inhales
The connection of receipts formula refrigerating plant.
Compared with prior art, the utility model is by solar energy heating refrigeration system and gas power generation system and UTILIZATION OF VESIDUAL HEAT IN
System combines, and can generate four kinds of energy products simultaneously, it is sufficient to meet user to the need of domestic hot-water, refrigeration, heating and steam
It asks.The utility model, which not only solves, is passed through in main equipment room and unit noise reduction housing the problem of entering the wind cold source used, ensure that master
Environment temperature in computer room and unit noise reduction housing is also fully utilized by the renewable sources of energy of afterheat utilizing system generation, effectively
Low-temperature flue gas and steam produced by afterheat utilizing system is utilized, is translated into energy products for users to use, reduces and is
System energy consumption, improves operational efficiency.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of an embodiment of the present invention.
Appended drawing reference: 1- gas power generation system, 2- afterheat utilizing system, 3- solar energy heating refrigeration system, 4- solar energy
Heat collector, 5- collecting system heat exchanger, 6- hot water storage tank, 7- absorption type refrigerating unit, 8- pipeline, 9- jet dynamic control, 10-
Unit noise reduction housing, 11- cylinder sleeve water- to-water heat exchanger, 12- flue gas triple valve, 13- waste heat boiler device, 14- condensate tank, 15- steam
Vapour header, 16- steam pipeline, 17- steam user terminal, 18- flue gas heat-exchange unit, 19- are connected by circulation pipe, 20-a valve, 21-b
Valve, 22- return pipe, 23- water supplying pipe, 24-c valve, 25-d valve, 26- air-intake device, 27- back water pump, 28- ventilation device.
The utility model is further described with reference to the accompanying drawings and detailed description.
Specific embodiment
Embodiment 1: a kind of distributed multi-generation system coupled with solar energy, including gas power generation system 1, UTILIZATION OF VESIDUAL HEAT IN
System 2, solar energy heating refrigeration system 3, gas power generation system 1 are connect with afterheat utilizing system 2, afterheat utilizing system 2 with too
Positive energy thermal-arrest refrigeration system 3 connects, and solar energy heating refrigeration system 3 is connect with gas power generation system 1, solar energy heating refrigeration system
System 3 includes solar thermal collector 4, collecting system heat exchanger 5, hot water storage tank 6 and absorption type refrigerating unit 7, solar thermal collector 4
It is connect with collecting system heat exchanger 5, collecting system heat exchanger 5 is connect with hot water storage tank 6, and hot water storage tank 6 and absorption refrigeration fill
7 connections are set, absorption type refrigerating unit 7 is connect by pipeline 8 with the air-intake device 26 of gas power generation system 1, absorption refrigeration dress
7 are set also to connect with the ventilation device of main equipment room 28.
Embodiment 2: a kind of distributed multi-generation system coupled with solar energy, including gas power generation system 1, UTILIZATION OF VESIDUAL HEAT IN
System 2, solar energy heating refrigeration system 3, gas power generation system 1 are connect with afterheat utilizing system 2, afterheat utilizing system 2 with too
Positive energy thermal-arrest refrigeration system 3 connects, and solar energy heating refrigeration system 3 is connect with gas power generation system 1.Solar energy heating refrigeration system
System 3 includes solar thermal collector 4, collecting system heat exchanger 5, hot water storage tank 6 and absorption type refrigerating unit 7, solar thermal collector 4
It is connect with collecting system heat exchanger 5, collecting system heat exchanger 5 is connect with hot water storage tank 6, and hot water storage tank 6 and absorption refrigeration fill
7 connections are set, absorption type refrigerating unit 7 is connect by pipeline 8 with the air-intake device 26 of gas power generation system 1, absorption refrigeration dress
7 are set also to connect with the ventilation device of main equipment room 28.Afterheat utilizing system 2 includes waste heat boiler device 13, condensate tank 14 and steams
Vapour header 15, waste heat boiler device 13 are connect by pipeline with condensate tank 14 and steam header 15 respectively, and steam header 15 is logical
Steam pipeline 16 is crossed to connect with steam user terminal 17.In order to improve the steam production of waste heat boiler device 13, in waste heat boiler
Flue afterburner is provided on device 13.
Embodiment 3: a kind of distributed multi-generation system coupled with solar energy, including gas power generation system 1, UTILIZATION OF VESIDUAL HEAT IN
System 2, solar energy heating refrigeration system 3, gas power generation system 1 are connect with afterheat utilizing system 2, afterheat utilizing system 2 with too
Positive energy thermal-arrest refrigeration system 3 connects, and solar energy heating refrigeration system 3 is connect with gas power generation system 1, solar energy heating refrigeration system
System 3 includes solar thermal collector 4, collecting system heat exchanger 5, hot water storage tank 6 and absorption type refrigerating unit 7, solar thermal collector 4
It is connect with collecting system heat exchanger 5, collecting system heat exchanger 5 is connect with hot water storage tank 6, and hot water storage tank 6 and absorption refrigeration fill
7 connections are set, absorption type refrigerating unit 7 is connect by pipeline 8 with 1 air-intake device 26 of gas power generation system, absorption type refrigerating unit 7
Also it is connect with the ventilation device of main equipment room 28.Pipeline 8 includes return pipe 22 and water supplying pipe 23, is provided with c valve on return pipe 22
24, d valve 25 is provided on water supplying pipe 23.C valve 24 and d valve 25 are triple valve.
Afterheat utilizing system 2 includes waste heat boiler device 13, condensate tank 14 and steam header 15, waste heat boiler device 13
It is connect respectively by pipeline with condensate tank 14 and steam header 15, steam header 15 passes through steam pipeline 16 and steam user
17 connection of end.It is provided with flue afterburner on waste heat boiler device 13, by the way that flue afterburner is arranged, can be improved waste heat boiler
The steam product of device 13, to meet the needs of user uses steam.Gas power generation system 1 includes jet dynamic control
9, unit noise reduction housing 10, cylinder sleeve water- to-water heat exchanger 11 and flue gas triple valve 12, jet dynamic control 9 are built in unit noise reduction housing
It in 10, and is connect with cylinder sleeve water- to-water heat exchanger 11, jet dynamic control 9 is remaining by flue gas triple valve 12 and afterheat utilizing system 2
Hot pot furnace apparatus 13 is connected to.The tail portion of waste heat boiler device 13 is provided with flue gas heat-exchange unit 18.Gas power generation system 1 and solar energy
Air-intake device 26 is provided between thermal-arrest refrigeration system 3, air-intake device 26 accesses absorption refrigeration dress by c valve 24 and d valve 25
It sets between 7 and jet dynamic control 9.When overhauling jet dynamic control 9, in order to not influence the normal fortune of jet dynamic control 9
The high-temperature flue gas that jet dynamic control 9 generates, can be bypassed in atmosphere by row by flue gas triple valve 12.
Embodiment 4: a kind of distributed multi-generation system coupled with solar energy, including gas power generation system 1, UTILIZATION OF VESIDUAL HEAT IN
System 2, solar energy heating refrigeration system 3, gas power generation system 1 are connect with afterheat utilizing system 2, afterheat utilizing system 2 with too
Positive energy thermal-arrest refrigeration system 3 connects, and solar energy heating refrigeration system 3 is connect with gas power generation system 1, solar energy heating refrigeration system
System 3 includes solar thermal collector 4, collecting system heat exchanger 5, hot water storage tank 6 and absorption type refrigerating unit 7, solar thermal collector 4
It is connect with collecting system heat exchanger 5, collecting system heat exchanger 5 is connect with hot water storage tank 6, and hot water storage tank 6 and absorption refrigeration fill
7 connections are set, absorption type refrigerating unit 7 is connect by pipeline 8 with the air-intake device 26 of gas power generation system 1, absorption refrigeration dress
7 are set also to connect with the ventilation device of main equipment room 28.Pipeline 8 includes return pipe 22 and water supplying pipe 23, is provided with c on return pipe 22
Valve 24 is provided with d valve 25 on water supplying pipe 23.C valve 24 and d valve 25 are electric T-shaped valve.Ventilation device 8 passes through c valve 24 and d valve
25 connect with absorption type refrigerating unit 7.Afterheat utilizing system 2 includes waste heat boiler device 13, condensate tank 14 and steam header
15, waste heat boiler device 13 is connect by pipeline with condensate tank 14 and steam header 15 respectively, and steam header 15 passes through steam
Delivery pipe 16 is connect with steam user terminal 17.Flue afterburner is provided on waste heat boiler device 13.Gas power generation system 1 includes
Jet dynamic control 9, unit noise reduction housing 10, cylinder sleeve water- to-water heat exchanger 11 and flue gas triple valve 12, jet dynamic control 9 are built in
It in unit noise reduction housing 10, and is connect with cylinder sleeve water- to-water heat exchanger 11, jet dynamic control 9 passes through flue gas triple valve 12 and waste heat benefit
It is connected to the waste heat boiler device 13 of system 2.The tail portion of waste heat boiler device 13 is provided with flue gas heat-exchange unit 18.Air-intake device 26
It is arranged on unit noise reduction housing 10, air-intake device 26 is connect by c valve 24 and d valve 25 with absorption type refrigerating unit 7.The sun
Energy thermal-arrest refrigeration system 3 further includes being connected by circulation pipe 19, a valve 20 and b valve 21, and a valve 20 and b valve 21 are all set in and are connected by circulation
On pipe 19, hot water storage tank 6 is connect by being connected by circulation pipe 19 with absorption type refrigerating unit 7.A valve 20 and b valve 21 are electronic three
Port valve.Using the switching of a valve 20 and b valve 21, by the delivery generated by solar thermal collector 4 to domestic hot-water's main pipe.
Back water pump 27 is provided on pipeline between waste heat boiler device 13 and condensate tank 14.
The working principle of an embodiment of the present invention:
Solar radiation heat is absorbed by the solar thermal collector 4 of solar energy heating refrigeration system 3, passes through the sun of absorption
Radiations heat energy carrys out the liquid working substance in heating solar heat-collector 4, and useful thermal energy is passed through thermal-arrest by the liquid working substance after heating
System heat exchanger 5 is by the hot water heating in hot water storage tank 6 to 90 DEG C~95 DEG C, and the hot water after heating is as absorption refrigeration
Device 7 drives cooling driving heat source as absorption type refrigerating unit 7, when driving heat source abundance, in hot water storage tank 6
Hot water can also supply user's use, and a valve 20 being connected by circulation on pipe 19 and b valve 21 is arranged in by hot water storage tank 6 by switching
In delivery to absorption type refrigerating unit 7 and/or user.
The cold water produced through absorption type refrigerating unit 7 is delivered to air-intake device 26 through d valve 25 by water supplying pipe 23, is entering the wind
Air is cooled down by heat exchange coil in device 26, air after cooling is sent to unit noise reduction housing 10, to reduce
Temperature in unit noise reduction housing 10.When solar energy resources abundance, cold water can be also delivered to by the d valve 25 on water supplying pipe 23
In the ventilation device 28 of main equipment room, the temperature in main equipment room is reduced, absorption refrigeration is then returned to through c valve 24 by return pipe 22
Device 7.
It is higher or when rainy days, refrigeration requirement was larger in summer temp, can be by the switching of a valve 20 and b valve 21, it will
Benefit of the hot water that the low-temperature flue gas of 13 tail portion of waste heat boiler discharge is generated by flue gas heat-exchange unit 18 as absorption type refrigerating unit 7
Fill heat source driving refrigeration.In winter and when spring and autumn, the hot water that solar energy heating refrigeration system 3 generates passes through a valve 20 and b valve
Then 21 switching imports domestic hot-water's water main pipe together with the hot water that flue gas heat-exchange unit 18 generates as user's energy supply.The sun
Can thermal-arrest refrigeration system 3 complement one another with afterheat utilizing system 2, mutual backup.
Fuel generates electric power through 1 work by combustion of gas power generation system and waste heat, some electrical power meet Tthe utility model system
Inside uses, and excrescent electric power then directly feeds user or is sent into power grid.The available waste heat generated has high-temperature flue gas and high temperature cylinder sleeve
Water two parts.The high-temperature flue gas of discharge enters waste heat boiler 13 by flue gas triple valve 12, with the pot provided by back water pump 27
Furnace water supply heat exchange generates steam and imports steam header 15, supplies user terminal 17 by steam pipeline 16.High temperature jacket water passes through
Cylinder sleeve water- to-water heat exchanger 11 generates hot water, and the hot water of generation can provide heating in winter for user, can also be used as suction in summer
The driving heat source of receipts formula refrigerating plant 7 is freezed.
Air is cooled to Cryogenic air by heat exchanger, by Cryogenic air by c valve 24 be delivered to gas power generation system 1 into
In wind apparatus 26, enter cooling air in unit noise reduction housing 10 using air-intake device 26, to reduce unit noise reduction housing
Temperature in 10.Meanwhile the cooling air being passed through by ventilation device 28 into main equipment room can reduce the temperature in workshop.
The utility model utilizes this inexhaustible clean energy resource of solar energy, the supply of the cold source as cooling air inlet
Source effectively reduces the high temperature generated in 9 operational process of jet dynamic control, realizes purpose aeration-cooling in workshop.
Using the advantage of summer solar energy abundance, the disadvantage that prior art cooling effect is poor, energy consumption is high, same time are not only overcome
Operating cost has been saved, energy utilization rate and performance driving economy are improved;And in winter, the hot water conduct generated using solar energy
The heat source of domestic hot-water or air-conditioning heating is provided, by solar energy resources sufficiently with 2 phase of gas power generation system 1 and afterheat utilizing system
In conjunction with realizing multi-energy complementation, economy and environmental-protecting performance are improved.
Claims (10)
1. a kind of distributed multi-generation system coupled with solar energy, which is characterized in that including gas power generation system (1), waste heat
Using system (2), solar energy heating refrigeration system (3), the gas power generation system (1) connect with afterheat utilizing system (2), remaining
Heat utilization system (2) is connect with solar energy heating refrigeration system (3), the solar energy heating refrigeration system (3) and fuel gas generation
System (1) connection, the solar energy heating refrigeration system (3) include solar thermal collector (4), collecting system heat exchanger (5), store
Boiler (6) and absorption type refrigerating unit (7), the solar thermal collector (4) connect with collecting system heat exchanger (5), thermal-arrest
System heat exchanger (5) is connect with hot water storage tank (6), and hot water storage tank (6) is connect with absorption type refrigerating unit (7), absorption refrigeration
Device (7) is connect by pipeline (8) with the air-intake device (26) of gas power generation system (1), and the absorption type refrigerating unit (7) is also
It is connect with the ventilation device (28) of main equipment room.
2. a kind of distributed multi-generation system coupled with solar energy according to claim 1, which is characterized in that described remaining
Heat utilization system (2) includes waste heat boiler device (13), condensate tank (14) and steam header (15), the waste heat boiler device
(13) it is connect respectively by pipeline with condensate tank (14) and steam header (15), the steam header (15) is conveyed by steam
Pipe (16) is connect with steam user terminal (17).
3. a kind of distributed multi-generation system coupled with solar energy according to claim 2, which is characterized in that described remaining
Hot pot furnace apparatus is provided with flue afterburner on (13).
4. a kind of distributed multi-generation system coupled with solar energy according to claim 3, which is characterized in that the combustion
Gas electricity generation system (1) includes jet dynamic control (9), unit noise reduction housing (10), cylinder sleeve water- to-water heat exchanger (11) and flue gas threeway
Valve (12), the jet dynamic control (9) is built in unit noise reduction housing (10), and connect with cylinder sleeve water- to-water heat exchanger (11),
The jet dynamic control (9) is connected to by flue gas triple valve (12) with the waste heat boiler device (13) of afterheat utilizing system (2).
5. a kind of distributed multi-generation system coupled with solar energy according to claim 4, which is characterized in that described remaining
The tail portion of hot pot furnace apparatus (13) is provided with flue gas heat-exchange unit (18).
6. a kind of distributed multi-generation system coupled with solar energy according to claim 1, which is characterized in that it is described too
Positive energy thermal-arrest refrigeration system (3) further includes being connected by circulation pipe (19), a valve (20) and b valve (21), a valve (20) and b valve (21)
It is all set in and is connected by circulation on pipe (19), the hot water storage tank (6) is by being connected by circulation pipe (19) and absorption type refrigerating unit (7)
Connection.
7. a kind of distributed multi-generation system coupled with solar energy according to claim 4, which is characterized in that the pipe
Road (8) includes return pipe (22) and water supplying pipe (23), is provided with c valve (24) on the return pipe (22), the water supplying pipe (23)
On be provided with d valve (25).
8. a kind of distributed multi-generation system coupled with solar energy according to claim 7, which is characterized in that it is described into
Wind apparatus (26) is arranged on unit noise reduction housing (10), and the air-intake device (26) is by c valve (24) and d valve (25) and inhales
Receipts formula refrigerating plant (7) connection.
9. a kind of distributed multi-generation system coupled with solar energy according to claim 2, which is characterized in that described remaining
Back water pump (27) are provided on pipeline between hot pot furnace apparatus (13) and condensate tank (14).
10. a kind of distributed multi-generation system coupled with solar energy according to claim 8, which is characterized in that described
Ventilation device (28) is connect by c valve (24) and d valve (25) with absorption type refrigerating unit (7).
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CN108626889A (en) * | 2018-05-03 | 2018-10-09 | 中国华电科工集团有限公司 | A kind of distributed multi-generation system coupled with solar energy |
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CN108626889A (en) * | 2018-05-03 | 2018-10-09 | 中国华电科工集团有限公司 | A kind of distributed multi-generation system coupled with solar energy |
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