CN112177761A - Atomizing and cooling system of remote heat dissipation water tank of gas generator set - Google Patents

Abstract

The invention relates to an atomization cooling system of a remote heat dissipation water tank of a gas generator set, belonging to the technical field of cooling water systems of coal bed gas generator sets; the technical problem to be solved is as follows: the improvement of the hardware structure of the atomization cooling system of the remote heat dissipation water tank of the gas generator set is provided; the technical scheme for solving the technical problems is as follows: the system comprises a plurality of radiating water tanks, wherein an isolation platform is arranged at an air outlet of each radiating water tank, the isolation platform comprises a plurality of high-strength heat insulation plates, an atomization cooling device is arranged below each radiating water tank, the atomization cooling device comprises a plurality of atomizers, a water inlet of each atomizer is connected with one end of a high-pressure branch pipe, the other ends of the high-pressure branch pipes are connected with a water outlet of a high-pressure header pipe, a water inlet of the high-pressure header pipe is connected with a water outlet of a booster water pump, and a water inlet of the booster water pump is connected with a desalination water source; the invention is applied to heat dissipation of the generator set.

Description

Atomizing and cooling system of remote heat dissipation water tank of gas generator set

Technical Field

The invention discloses an atomization cooling system of a remote heat dissipation water tank of a gas generator set, and belongs to the technical field of atomization cooling systems of remote heat dissipation water tanks of gas generator sets.

Background

The cooling water system of the coal bed gas generator set is a circulating water system for cooling a cylinder sleeve, a cylinder cover, a supercharger, lubricating oil and pressurized air of an internal combustion engine. The device mainly comprises a water pump, a booster cooler, an oil-water heat exchanger, a heat dissipation table, an expansion tank, various valves and instrument pipelines. Often a forced circulation water system. The function is as follows: the part of heat absorbed by the heated parts of the generator set is timely dissipated, and the engine is guaranteed to work in a proper temperature state.

The cooling water system of the coal bed gas generator set specifically comprises: the lubricating oil for lubricating and cooling all motion friction of the internal combustion engine is cooled, so that the temperature of the lubricating oil is kept in a proper range, the clearance of the moving parts of the generator set is ensured to be normal, the performance of the lubricating oil is kept, and the service life of the lubricating oil is prolonged. The cooling water system of the generator set is divided into two independent circulating systems, namely a cylinder sleeve system for cooling a cylinder sleeve, a cylinder cover, a supercharger and lubricating oil and an inter-cooling water system for cooling pressurized air, because the temperature requirements of all moving parts are different. When the internal combustion engine works, under the driving of the water pump, cooling water absorbs heat when flowing through the internal combustion engine body, the turbocharger, the air cooler and the oil-water heat exchanger, and transmits the heat to air when flowing through the remote heat dissipation water tank; after being cooled, the water is sucked by the water pump again, and the water absorbs heat, releases heat and circularly flows.

The poor cooling effect of a cooling water system of the generator set can cause the temperature of moving parts of the generator set to be too high, so that the mechanical movement clearance is reduced, and the lubricating performance of lubricating oil is poor to cause mechanical abrasion or jamming of rotating parts; meanwhile, the temperature of the mixer is increased, so that the density of mixed gas is poor, the combustion is insufficient, and the efficiency of a generator set is reduced; the cylinder liner water and the intercooling water are continuously too high in temperature to cause the unit to be incapable of operating normally and stably.

The reason that causes generating set cooling water system cooling effect poor at present has: 1. the heat dissipation area of the remote heat dissipation water tank cannot meet the operation requirement of the unit in a high-temperature environment in summer. 2. Dust, catkin and other suspended matters in the air are adsorbed on the radiating fins of the remote radiating water tank, so that the heat exchange between the fins and the air is incomplete. 3. Hot air blown out by a remote radiating platform radiating fan enters air and is sucked into radiating fins through a fan again for heat exchange, and the temperature of cooling water cannot be reduced due to the fact that the temperature of the sucked air is too high.

The rated power of a single machine of the existing J620 unit is 3352Kw/h, the installed capacity is 11, and the temperature of each system of the unit is normal in summer and the unit can not run in full load only to about 2800Kw due to overhigh ambient temperature in 5-10 months. Thereby causing a waste of resources.

Therefore, in order to solve the technical problem, when the area of the remote heat dissipation water tank cannot be increased to solve the problem of poor cooling effect of the cooling system, the invention provides an atomization cooling system of the remote heat dissipation water tank of the gas generator set, which is used for improving the cooling effect of the remote heat dissipation water tank.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention aims to solve the technical problems that: the improvement of the hardware structure of the atomization cooling system of the remote heat dissipation water tank of the gas generator set is provided.

In order to solve the technical problems, the invention adopts the technical scheme that: an atomization cooling system of a remote heat dissipation water tank of a gas generator set comprises a plurality of heat dissipation water tanks, wherein a sealed cooling water space is arranged below a water outlet of each heat dissipation water tank, a plurality of cooling fins are arranged in the cooling water space, an isolation platform is arranged at an air outlet of each heat dissipation water tank, each isolation platform comprises a plurality of high-strength heat insulation plates, and a fan is arranged above an air inlet of each heat dissipation water tank;

an atomization cooling device is arranged below the heat dissipation water tank, the atomization cooling device comprises a plurality of atomizers, the air outlets of the atomizers are aligned to the heat dissipation water tank, the water inlet of each atomizer is connected with one end of a high-pressure branch pipe, the other ends of the high-pressure branch pipes are connected with the water outlet of a high-pressure header pipe, the water inlet of the high-pressure header pipe is connected with the water outlet of a booster water pump, and the water inlet of the booster water pump is connected with a desalination water source;

a main control valve is arranged at the inlet of the high-pressure main pipe, and a branch control valve and a pressure sensor are arranged on each high-pressure branch pipe;

one side of atomizing cooling device is provided with the control box, the inside central controller that is provided with of control box, central controller passes through the wire and links to each other with fan, atomizer, booster water pump, total control valve, branch control valve's control end respectively, central controller still links to each other with pressure sensor, temperature sensor's signal output part respectively through the wire.

An instrument heat insulation box is further arranged on one side of the control box, a rain cover is fixedly connected above the control box and the instrument heat insulation box, and the control box, the instrument heat insulation box and the rain cover are all installed on the skid-mounted base.

The temperature sensors are arranged on cylinder liner water and inter-cooling water inlet and outlet pipes of the radiating water tank and are used for collecting outlet water temperatures of the cylinder liner water and the inter-cooling water.

The central controller is also communicated with the communication module in a two-way mode through a wire, and the communication module is used for transmitting the cooling operation working condition of the heat dissipation water tank to a control system of a power plant in a wireless communication or wired communication mode.

And each heat dissipation water tank is provided with a welding connecting support according to intervals, and the high-strength heat insulation plate is fixedly arranged on the connecting supports and used for preventing hot air at the air outlet of the heat dissipation water tank from flowing into the air inlet of the heat dissipation water tank.

The booster water pump is specifically set as a variable frequency water pump with adjustable pressure of 0-10 Mpa.

The temperature sensor is specifically set as a thermal resistance temperature sensor of type PT 100.

The specific model of the central controller is S7-200 SMART.

Compared with the prior art, the invention has the beneficial effects that: according to the coal bed gas generator set cooling water system provided by the invention, a high-pressure water pipe is laid under a remote heat dissipation water tank, and high-pressure atomization equipment is installed; by additionally arranging the isolation platform at the lower side of the air outlet of each remote heat dissipation water tank, hot air at the air outlet is prevented from flowing into the vicinity of the air inlet at the lower side of the remote heat dissipation water tank; through changing the high-power heat dissipation platform cooling fan motor that looses, change the fan blade angle, increase the velocity of flow of air effectively improves the cooling effect of long-range heat dissipation water tank to the generating efficiency under the same operating mode of coal bed gas generating set has been improved.

Drawings

The invention is further described below with reference to the accompanying drawings:

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic diagram of the circuit structure of the present invention;

in the figure: the system comprises a heat dissipation water tank 1, a heat dissipation plate 2, a fan 3, an atomization cooling device 4, an atomizer 5, a high-pressure branch pipe 6, a master control valve 7, a high-pressure main pipe 8, a booster water pump 9, a central controller 401, a temperature sensor 402, a communication module 403, a branch control valve 601 and a pressure sensor 602.

Detailed Description

As shown in fig. 1 to 2, the atomization cooling system of the remote heat dissipation water tank of the gas generator set comprises a plurality of heat dissipation water tanks 1, wherein a sealed cooling water space is arranged below water outlets of the heat dissipation water tanks 1, a plurality of cooling fins 2 are arranged in the cooling water space, an isolation platform is arranged at an air outlet of each heat dissipation water tank 1, the isolation platform comprises a plurality of high-strength heat insulation plates, and a fan 3 is arranged above an air inlet of each heat dissipation water tank 1;

an atomization cooling device 4 is arranged below the heat dissipation water tank 1, the atomization cooling device 4 comprises a plurality of atomizers 5, the air outlets of the atomizers 5 are aligned with the heat dissipation water tank 1, the water inlet of each atomizer 5 is connected with one end of a high-pressure branch pipe 6, the other ends of the high-pressure branch pipes 6 are connected with the water outlet of a high-pressure header pipe 8, the water inlet of the high-pressure header pipe 8 is connected with the water outlet of a booster water pump 9, and the water inlet of the booster water pump 9 is connected with a desalination water source;

a master control valve 7 is arranged at the inlet of the high-pressure main pipe 8, and a branch control valve 601 and a pressure sensor 602 are arranged on each high-pressure branch pipe 6;

one side of atomizing cooling device 4 is provided with the control box, the inside central controller 401 that is provided with of control box, central controller 401 links to each other with fan 3, atomizer 5, booster pump 9, total control valve 7, branch control valve 601's control end respectively through the wire, central controller 401 still links to each other with pressure sensor 602, temperature sensor 402's signal output part respectively through the wire.

An instrument heat insulation box is further arranged on one side of the control box, a rain cover is fixedly connected above the control box and the instrument heat insulation box, and the control box, the instrument heat insulation box and the rain cover are all installed on the skid-mounted base.

The temperature sensor 402 is arranged on the cylinder liner water and the inter-cooling water inlet and outlet water pipe of the heat radiation water tank 1 and is used for collecting the outlet water temperature of the cylinder liner water and the inter-cooling water.

The central controller 401 is also in two-way communication with a communication module 403 through a wire, and the communication module 403 is used for transmitting the cooling operation condition of the heat dissipation water tank to a control system of the power plant in a wireless communication or wired communication mode.

And each heat dissipation water tank 1 is provided with a welding connecting support according to intervals, and the high-strength heat insulation plate is fixedly arranged on the connecting support and used for preventing hot air at the air outlet of the heat dissipation water tank 1 from flowing into the air inlet of the heat dissipation water tank 1.

The booster water pump 9 is specifically set as a variable frequency water pump with adjustable pressure of 0-10 Mpa.

The temperature sensor 402 is specifically configured as a thermal resistance temperature sensor of type PT 100.

The specific model of the central controller 401 is S7-200 SMART.

According to the atomization cooling system of the remote heat dissipation water tank of the gas generator set, the isolation platform is additionally arranged on the lower side of the air outlet of each remote heat dissipation water tank 1, the welding connection support is laid according to the interval of each heat dissipation water tank 1, the high-strength heat insulation plate is additionally arranged and effectively fixed, hot air at the air outlet is prevented from flowing into the vicinity of the air inlet at the lower side of the remote heat dissipation water tank 1, meanwhile, the periphery below the heat insulation plate is not isolated, the full circulation of air is not influenced, sufficient and qualified air is generated during the operation of the heat dissipation platform heat dissipation fan, and the cooling effect of the remote heat dissipation water tank 1.

According to the invention, a high-pressure water pipe with a certain size is laid under a remote heat-dissipation water tank 1, high-pressure atomization devices (water atomization) are installed according to a certain proportion, a valve is additionally installed at the inlet of each set of high-pressure atomization device to carry out switching operation, and a master control valve 7 is additionally arranged at the inlet of a high-pressure main pipe 8 to control whether the device is put into operation or not. The water source adopts treated demineralized water, and the scaling of the radiating fins caused by using a common water source is prevented. The booster water pump 9 of the pressure boosting device adopts a variable frequency water pump with 0-10Mpa and pressure capable of being adjusted freely, so as to meet the requirement of using quantity of the atomizers 5 and maintain stable pressure.

The principle of the invention is as follows: after entering the heat radiating fins, the water vapor atomized by the atomizer 5 contacts with the high-temperature heat radiating fins to clean dust and dirt on the heat radiating fins and keep the heat radiating fins clean; the water vapor is forced to be discharged into the air by the fan 3 after absorbing heat and evaporating, so that the temperature of the radiating fins is reduced, and the cooling effect of the remote radiating water tank 1 is improved.

The cooling system has extremely high automatic adjustment capability, and the control system can realize automatic adjustment no matter under any working condition. And the operating condition is transmitted to the DCS system function of the power plant in a communication manner through the communication module 403.

The invention is further illustrated by the following specific examples: the main parameters of the cooling system of each existing internal combustion generator set are as follows: an intercooling water pump: 1, power: 7.5Kw, rotation speed: 960 r/min, lift: 45m, flow rate: 666.7L/min; intercooled water temperature (return/outlet): 45 ℃/55 ℃, maximum temperature of intercooled water: 55 ℃; cylinder liner water pump: 1, power: 22Kw, rotation speed: 960 r/min, lift: 90m, flow rate: 1698.3L/min; cylinder liner water temperature (backwater/effluent): 70 ℃/85 ℃, cylinder liner water maximum temperature: 95 ℃; remote heat dissipation water tank: 1, the number of cooling fans: 12, single power: 5.5Kw/7.5Kw, air flow: 144m, casting fins: copper pipe aluminum fin.

According to the technical scheme of the invention, the existing cooling water system is improved, in the embodiment, each remote heat dissipation water tank 1 of the atomization cooling system is replaced by 6 7.5KW fans 3, and simultaneously, the angle of the fan blade is changed, and the flow rate of air is increased; each generator set remote heat dissipation table is provided with 12 atomizers 5 in a heat dissipation mode, and each atomizer 5 is provided with a set of remote control valves, namely sub-control valves 601; the main pipeline of the atomizer 5 is DN32 galvanized pipe, and a local pressure gauge is added, namely, a pressure sensor 601 is arranged on each high-pressure branch pipe 6, and the pressure signal of the high-pressure water pipe is transmitted to a control system; the medium in the high-pressure water pipe is demineralized water, a booster pump 9 is a frequency conversion pump of 0-10Mpa, the best atomization pressure grade of an atomizer 5 is 2.5Mpa, a cylinder liner water inlet and outlet pipeline of a remote radiating water tank 1 is respectively provided with a PT100 thermal resistance temperature sensor 402, the water inlet temperature of the cylinder liner water is more than or equal to 85 ℃, the water outlet temperature of the cylinder liner water is less than or equal to 70 ℃, the water inlet temperature of the middle-cooling water is more than or equal to 55 ℃, the water outlet temperature of the middle-cooling water is less than or equal to 45 ℃, each radiating water tank 1 is provided with a set of centralized control system, a Siemens 200smart controller is adopted, a skid-mounted base is manufactured, a control box, an instrument heat preservation box, a rain cover and the like which are matched with a cooling system are all integrated on the skid-mounted base, the flow and the number of the atomizers 5 are determined by the temperature difference between the water outlet temperature of the middle-cooling water, and meanwhile, 1 atomizer is started when the temperature rises by 1 ℃, and the atomizer is stopped when the outlet water temperature is lower than the rated temperature, so that the outlet water temperature of the cylinder sleeve and the outlet water temperature of the inter-cooling water are maintained at the rated temperature, and the cooling effect of the remote heat-dissipation water tank is realized.

In the embodiment, under the condition that the gas concentration, the environmental temperature and the unit performance are not changed, after the cooling water system is upgraded and modified, the average load of each unit is averagely increased by 550Kw/h in the summer between 5 and 10 months compared with that before the modification. At present, 11 Bahe units are completely transformed and upgraded by a cooling water system, and all the units can run in full load in a high-temperature environment period (within 6 months in 5-10 months and 10 hours in 10-19 hours in a daytime environment). The power generation capacity can be increased by 550KW 10h 11 h 30 days per month, about 1815000KW, and the power generation capacity is increased by 10890000KW every year (6 months), about 554 ten thousand yuan of RMB; and the set can meet the normal temperature of each system of the generator set at the ambient temperature of about 40 ℃ in summer after the cooling water system is improved.

The cooling water system of the generator set of the invention can generate huge social and economic benefits: the cooling water system of the coal bed gas generator set is characterized in that a high-pressure water pipe with a certain size is laid under a remote heat dissipation water tank, and high-pressure atomization equipment is installed according to a certain proportion; by additionally arranging the isolation platform at the lower side of the air outlet of each remote heat dissipation water tank, hot air at the air outlet is prevented from flowing into the vicinity of the air inlet at the lower side of the remote heat dissipation water tank; through changing the motor of the cooling fan with the high-power heat dissipation platform, the angle of the fan blade is changed, the flow rate of air is increased, and the power generation efficiency of the coal bed gas generator set under the same working condition is effectively improved.

It should be noted that, regarding the specific structure of the present invention, the connection relationship between the modules adopted in the present invention is determined and can be realized, except for the specific description in the embodiment, the specific connection relationship can bring the corresponding technical effect, and the technical problem proposed by the present invention is solved on the premise of not depending on the execution of the corresponding software program.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (8)

1. The utility model provides a long-range heat dissipation water tank's of gas generating set atomizing cooling system, includes many heat dissipation water tank (1), be provided with sealed cooling water space under the delivery port of heat dissipation water tank (1), be provided with a plurality of fin (2), its characterized in that in the cooling water space: an isolation platform is arranged at the air outlet of each heat dissipation water tank (1), the isolation platform comprises a plurality of high-strength heat insulation plates, and a fan (3) is arranged above the air inlet of each heat dissipation water tank (1);

an atomization cooling device (4) is arranged below the heat dissipation water tank (1), the atomization cooling device (4) comprises a plurality of atomizers (5), the air outlets of the atomizers (5) are aligned to the heat dissipation water tank (1), the water inlet of each atomizer (5) is connected with one end of a high-pressure branch pipe (6), the other ends of the high-pressure branch pipes (6) are connected with the water outlet of a high-pressure header pipe (8), the water inlet of the high-pressure header pipe (8) is connected with the water outlet of a booster water pump (9), and the water inlet of the booster water pump (9) is connected with a desalination water source;

a master control valve (7) is arranged at the inlet of the high-pressure main pipe (8), and a branch control valve (601) and a pressure sensor (602) are arranged on each high-pressure branch pipe (6);

one side of atomizing cooling device (4) is provided with the control box, inside central controller (401) that is provided with of control box, central controller (401) link to each other with fan (3), atomizer (5), booster pump (9), total control valve (7), the control end of branch control flap (601) respectively through the wire, central controller (401) still links to each other with pressure sensor (602), temperature sensor (402)'s signal output part respectively through the wire.

2. The atomization cooling system of the remote heat dissipation water tank of the gas generator set according to claim 1, characterized in that: an instrument heat insulation box is further arranged on one side of the control box, a rain cover is fixedly connected above the control box and the instrument heat insulation box, and the control box, the instrument heat insulation box and the rain cover are all installed on the skid-mounted base.

3. The atomization cooling system of the remote heat dissipation water tank of the gas generator set according to claim 1, characterized in that: the temperature sensors (402) are arranged on cylinder liner water and inter-cooling water inlet and outlet pipes of the heat dissipation water tank (1) and are used for collecting outlet water temperatures of the cylinder liner water and the inter-cooling water.

4. The atomization cooling system of the remote heat dissipation water tank of the gas generator set according to claim 1, characterized in that: the central controller (401) is also in two-way communication with the communication module (403) through a wire, and the communication module (403) is used for transmitting the cooling operation condition of the heat radiation water tank to a control system of a power plant in a wireless communication or wired communication mode.

5. The atomization cooling system of the remote heat dissipation water tank of the gas generator set according to claim 1, characterized in that: every heat dissipation water tank (1) sets up welded connection support according to the interval, high strength heat insulating board fixed mounting is on the linking bridge for the steam of separation heat dissipation water tank (1) air outlet flows into heat dissipation water tank (1) air intake.

6. The atomization cooling system of the remote heat dissipation water tank of the gas generator set according to claim 1, characterized in that: the booster water pump (9) is specifically set as a variable frequency water pump with adjustable pressure of 0-10 Mpa.

7. The atomization cooling system of the remote heat dissipation water tank of the gas generator set according to claim 1, characterized in that: the temperature sensor (402) is specifically set as a thermal resistance temperature sensor of type PT 100.

8. The atomization cooling system of the remote heat dissipation water tank of the gas generator set according to claim 1, characterized in that: the specific model of the central controller (401) is S7-200 SMART.

Images