CN203547924U - Combined type energy-saving gas turbine inlet air cooling system - Google Patents

Abstract

The utility model discloses a combined type energy-saving gas turbine inlet air cooling system. The combined type energy-saving gas turbine inlet air cooling system comprises an air compressor, a combustion chamber and a gas turbine, wherein the air compressor is connected with an air outlet pipeline of a cooler; an air inlet of the cooler is connected with an air filter; a demister is arranged in the cooler; a first surface heat exchanger is arranged in the air cooler; a water inlet of the first surface heat exchanger is connected with a water outlet of a first chilled water circulating pump; a water inlet of the first chilled water circulating pump is connected with a chilled water outlet of a main refrigerator; a water outlet of the first surface heat exchanger is connected with a chilled water inlet of the main refrigerator; a water outlet of the cooler is connected with a water inlet of a condensed water tank; condensed water returns to the cooler through a high pressure pipeline; an atomizing nozzle is arranged on a part, stretching into the cooler, of the high pressure pipeline; a condensed water pump and a condensed water filtering device are arranged on a part, positioned outside the cooler, of the high pressure pipeline. According to the combined type energy-saving gas turbine inlet air cooling system, by the combined adoption of indirect heat exchange cooling and direct evaporative cooling, the energy consumption is reduced, and the installed capacity of the main refrigerator is reduced. The system is suitable for use in areas with high temperature and high humidity.

Description

Combined energy-saving type Inlet Air Cooling System of Gas Turbine

Technical field

The utility model relates to charged air cooler of gas turbine, be specifically related to, by the direct evaporative cooling of spraying and the cooling combined energy-saving type Inlet Air Cooling System of Gas Turbine that is used in combination and the condensed water of deviating from indirect heat exchange cooling procedure is reclaimed and used as the direct transpiration-cooled low-temperature receiver of spraying of indirect heat exchange, relate in particular to be applied in Gas-steam Combined Cycle generating gas turbine inlet air is carried out to cooling system.

Background technique

In combined cycle generation system of fuel gas-steam, gas turbine (hereinafter to be referred as " combustion machine ") main structure comprises gas compressor, firing chamber, combustion gas turbine, the air that gas compressor compression sucks, air after compression enters firing chamber becomes high-temperature fuel gas with the fuel mix burning spraying into, flow into immediately in combustion gas turbine and expand and do work, promote turbo wheel rotates together with compression impellor, the high-temperature flue gas that combustion machine is discharged simultaneously enters exhaust heat boiler and produces steam, be used for driving steam turbine, thereby drive generator generating.Because combustion machine belongs to constant volume machinery, its performance is subject to ambient temperature effect, ambient temperature effect air density, and the MAF that impact is passed through then, ambient temperature raises, and exerting oneself of machine of combustion will obviously decline, and the heat consumption rate of combustion machine obviously increases.For combustion machine or gas and steam turbine Combined Cycle Unit, exert oneself with the ambient temperature problem declining that raises, the improvement measure of taking is that air inlet is carried out cooling to combustion machine.At present, the charge-cooling mode of combustion machine mainly contains two kinds: first, the direct evaporative cooling of spraying, in combustion machine gas-entered passageway, high pressure demineralized water forms spraying and mixes with air through atomizer nozzle, evaporation endothermic, thereby remove the sensible heat of air, this system architecture as shown in Figure 1, in figure, 1 is gas compressor, 2 is firing chamber, 3 is combustion gas turbine, 4 is exhaust heat boiler, 5 is chimney, the suction port of gas compressor 1 is connected with the air outlet pipeline of air-cooler 6, the suction port of air-cooler 6 is connected with the air outlet of air filter 7, high-voltage tube 100 passes into air-cooler 6, the high-voltage tube 100 stretching in air-cooler 6 is provided with atomizer nozzle 200, the high-voltage tube 100 that stretches out air-cooler 6 is connected with the water outlet of sweet-water tank 300, the end of air-cooler 6 inside is provided with demister 8, the water outlet of air-cooler 6 is connected with the water intake pipeline of sweet-water tank 300, and pipeline is provided with waterback pump 400 and demineralized water filtrating equipment 500 described in this, the direct evaporating and cooling method of spraying is simple, little investment, operation and maintenance expense is low, but, this kind of cooling rear air temperature of the type of cooling cannot reach environment wet-bulb temperature, be subject to ambient humidity and Water Temperature larger, and need to consume a certain amount of demineralized water, generally be applicable to high temperature, dry area, effect to hot and humid area is limited, second, the heat exchange of mediate contact formula, by refrigerator (as lithium bromide absorption unit or electricity refrigeration handpiece Water Chilling Units), make chilled water, chilled water flows into the surface heat exchanger that is positioned at air-cooler, and carry out heat exchange with the air of surface heat exchanger outside, thereby remove sensible heat and the latent heat of air, this system architecture as shown in Figure 2, in figure, 1 is gas compressor, 2 is firing chamber, 3 is combustion gas turbine, 4 is exhaust heat boiler, 5 is chimney, the suction port of gas compressor 1 is connected with the air outlet pipeline of air-cooler 6, the suction port of air-cooler 6 is connected with the air outlet of air filter 7, first surface heat exchanger 9 is located in air-cooler 6, the water intake of first surface heat exchanger 9 is connected with the water outlet of chilled water circulating pump 10, the water intake of chilled water circulating pump 10 is connected with the chilled water outlet of main refrigerator 11, the water outlet of first surface heat exchanger 9 is connected with the chilled water import of main refrigerator 11, main refrigerator 11 adopts electric refrigerating machine or steam bromine cooling machine, the end of air-cooler 6 inside is provided with demister 8, the water outlet of air-cooler 6 is connected with the water intake of condensation water tank 12, condensed water in condensation water tank 12 enters the subsequent treatment system of condensed water via condensate pump 13, refrigerator in this cooling means arranges by latent heat grade, therefore energy consumption is higher, the condensate temperature that is condensed out in addition from air is about 14 ℃～16 ℃, this part condensed water is discharged into follow-up circulation, a large amount of colds are wasted.

Model utility content

The applicant improves for above-mentioned shortcoming of the prior art, a kind of combined energy-saving type Inlet Air Cooling System of Gas Turbine is provided, its direct evaporative cooling and indirect heat exchange is cooling is used in combination of spraying, be applicable in high temperature drying and hot and humid area, under the same temperature drop effect of combustion machine air inlet, can reduce energy consumption, improve combustion machine simply and Combined Cycle Unit performance, reduce the electric motor power of main refrigerator, reduce once investment and operating cost.

The technical solution of the utility model is as follows:

Combined energy-saving type Inlet Air Cooling System of Gas Turbine, comprise gas compressor, gas compressor outlet side is connected with firing chamber inlet end, outlet side, firing chamber is connected with combustion gas turbine inlet end, the inlet end of gas compressor is connected with the air outlet pipeline of air-cooler, the suction port of air-cooler is connected with the air outlet of air filter, air-cooler inside is provided with demister, first surface heat exchanger is located in air-cooler, the water intake of first surface heat exchanger is connected with the water outlet of the first chilled water circulating pump, the water intake of the first chilled water circulating pump is connected with the chilled water outlet of main refrigerator, the water outlet of first surface heat exchanger is connected with the chilled water import of main refrigerator, the water outlet of air-cooler is connected with the water intake of condensation water tank, condensation water tank is got back to air-cooler by pressure duct, the pressure duct stretching in air-cooler is provided with atomizer nozzle, the pressure duct that is positioned at air-cooler outside is provided with condensate pump and condensed water filtrating equipment.

Its further technological scheme is:

The outlet side of described combustion gas turbine is connected with the inlet end of exhaust heat boiler, and the outlet side of exhaust heat boiler is connected by pipeline with chimney.

The described connecting pipeline of the outlet side of exhaust heat boiler and chimney is provided with hot water heat exchanger, the water intake of hot water heat exchanger is connected by pipeline with hot-water type bromine cooling machine hot water outlet, and on described connecting tube, be provided with hot water circulating pump, the water outlet of hot water heat exchanger is connected with hot-water type bromine cooling machine thermal source inlet pipeline; The chilled water outlet of hot-water type bromine cooling machine is connected with the water intake of the second chilled water circulating pump, the water outlet of the second chilled water circulating pump is connected with the water intake of second surface heat exchanger, the water outlet of second surface heat exchanger is connected with the import of hot-water type bromine cooling machine chilled water, second surface heat exchanger is located in air-cooler, and is positioned at first surface heat exchanger front.

Technique effect of the present utility model:

The utility model is by Direct spraying evaporative cooling and the cooling combination of indirect contact heat exchanger, utilize the condensed water recovery that indirect surface heat exchanger and air heat-exchange process are deviate to be applied in the direct evaporative cooling of spraying simultaneously, the cold that this has not only utilized this partial condensation water yield but also has utilized this partial condensation water to have, cooling than simple indirect contact heat exchanger, can save cold, reduce the electric motor power of main refrigerator, than the direct vapor cooling system of simple spraying, can save the demineralized water of outer confession, reach energy-conservation object, the utility model is on Direct spraying evaporative cooling and the cooling basis being used in combination of indirect contact heat exchanger, associating use absorption refrigeration, utilize exhaust heat boiler smoke discharging residual heat to drive bromine cooling machine to produce the cooling air inlet of chilled water, can reduce energy consumption, further reduce the electric motor power of main refrigerator, reduce once investment and operating cost, combustion machine intake temperature can be controlled to quite low level, while being adapted to combined cycle generation system of fuel gas-steam, can improve the power generation system output power of about 15%-22%, be adapted at hot and humid area and the use of high temperature drying area.

Accompanying drawing explanation

Fig. 1 is the structural representation of direct evaporative cooling system of spraying in prior art.

Fig. 2 is the structural representation of prior art indirect contact-type heat exchange cooling system.

Fig. 3 is structural representation of the present utility model, there is shown exhaust heat boiler and chimney in Gas-steam Combined Cycle structure.

Fig. 4 is another embodiment's of the utility model structural representation.

Wherein: 1, gas compressor; 2, firing chamber; 3, combustion gas turbine; 4, exhaust heat boiler; 5, chimney; 6, air-cooler; 7, air filter; 8, demister; 9, first surface heat exchanger; 10, the first chilled water circulating pump; 11, main refrigerator; 12, condensation water tank; 13, condensate pump; 14, pressure duct; 15, atomizer nozzle; 16, condensed water filtrating equipment; 17, hot water heat exchanger; 18, hot-water type bromine cooling machine; 19, hot water circulating pump; 20, the second chilled water circulating pump; 21, second surface heat exchanger; 100, high-voltage tube; 200, atomizer nozzle; 300, sweet-water tank; 400, waterback pump; 500, demineralized water filtrating equipment.

Embodiment

Below in conjunction with accompanying drawing, embodiment of the present utility model is described.

See Fig. 3, the utility model comprises gas compressor 1, gas compressor 1 outlet side is connected with firing chamber 2 inlet ends, 2 outlet sides, firing chamber are connected with combustion gas turbine 3 inlet ends, the inlet end of gas compressor 1 is connected with the air outlet pipeline of air-cooler 6, the suction port of air-cooler 6 is connected with the air outlet of air filter 7, air-cooler 6 inside are provided with demister 8, first surface heat exchanger 9 is located in air-cooler 6, the water intake of first surface heat exchanger 9 is connected with the water outlet of the first chilled water circulating pump 10, the water intake of the first chilled water circulating pump 10 is connected with the chilled water outlet of main refrigerator 11, the water outlet of first surface heat exchanger 9 is connected with the chilled water import of main refrigerator 11, main refrigerator 11 adopts electric refrigerating machine or steam bromine cooling machine, the water outlet of air-cooler 6 is connected with the water intake of condensation water tank 12, condensation water tank 12 is got back to air-cooler 6 by pressure duct 14, the pressure duct 14 stretching in air-cooler 6 is provided with atomizer nozzle 15, the pressure duct 14 that is positioned at air-cooler 6 outsides is provided with condensate pump 13 and condensed water filtrating equipment 16.

See Fig. 3, the outlet side of described combustion gas turbine 3 is connected with the inlet end of exhaust heat boiler 4, and the outlet side of exhaust heat boiler 4 is connected by pipeline with chimney 5, and this is that combustion machine charge air-cooling system is applied in Gas-steam Combined Cycle electricity generating device.Combustion machine charge air-cooling system shown in Fig. 3 is mainly used in the simple or combined cycle generating unit of combustion machine for cooling air inlet, also before can be applicable to stove blower, systems for moisture removal is to reach the electric motor power object that reduces main refrigerator, cooling system shown in Fig. 3 be indirect contact heat exchanger cooling with spraying being used in combination of direct two kinds of modes of evaporative cooling, air in air-cooler 6 first through the first order direct evaporative cooling of spraying, be in condensation water tank 12 condensed water the effect of condensed water filtrating equipment 16 and condensate pump 13 downstream to air-cooler 6 in, and form spraying by atomizer nozzle 15, spraying mixes with air inlet, evaporation endothermic, thereby cooling air inlet, the humidity of air inlet simultaneously increases, then cooling through second level indirect contact heat exchanger, by main refrigerator 11, make cryogenic freezing water, cryogenic freezing water flows into the first surface heat exchanger 9 that is positioned at air-cooler 6, and carry out heat exchange with the air inlet of first surface heat exchanger 9 outsides, thereby cooling air inlet is also carried out dehumidification to air inlet, in the indirect contact heat exchanger cooling procedure of the second level, the condensed water of deviating under the effect of demister 8 is got back to condensation water tank 12, recyclable to air-cooler 6, and use as the direct transpiration-cooled low-temperature receiver of first order spraying.Because the condensate temperature that is condensed out in the indirect contact heat exchanger cooling procedure of the second level from air is about 14 ℃～16 ℃, in the first order, spray in direct evaporative cooling process, utilize the condensed water of this part 14 ℃～16 ℃ as low-temperature receiver, can make air again lower the temperature 4 ℃～8 ℃.Suppose 35 ℃ of intake air temperature on the same day, relative moisture 81%, and the final air temperature that is cooled is 10 ℃, the cooling system shown in Fig. 3 is except can be by the cooling temperature drop effect that reaches same air of two-stage, and can save total refrigeration cold that needs of 15%～20%, in addition, than the direct vapor cooling system of simple spraying, can save the demineralized water of outer confession, reach energy-conservation object.

See Fig. 4, cooling system shown in Fig. 4 is another embodiment of the present utility model, on the basis of the cooling system shown in Fig. 3, to have set up to utilize exhaust heat boiler 4 smoke discharging residual heats generation hot water to drive bromine cooling machine to produce chilled water, then by the cooling combustion machine of surface heat exchanger heat exchange intake air, be mainly used in the combustion machine charge air-cooling system of Gas-steam Combined Cycle electricity generating device, on the architecture basics of the cooling system shown in Fig. 3, the part-structure of setting up is as follows: the described connecting pipeline of the outlet side of exhaust heat boiler 4 and chimney 5 is provided with hot water heat exchanger 17, the water intake of hot water heat exchanger 17 is connected by pipeline with hot-water type bromine cooling machine 18 hot water outlets, and on connecting tube, be provided with hot water circulating pump 19, the water outlet of hot water heat exchanger 17 is connected with hot-water type bromine cooling machine 18 thermal source inlet pipelines, the chilled water outlet of hot-water type bromine cooling machine 18 is connected with the water intake of the second chilled water circulating pump 20, the water outlet of the second chilled water circulating pump 20 is connected with the water intake of second surface heat exchanger 21, the water outlet of second surface heat exchanger 21 is connected with the 18 chilled water imports of hot-water type bromine cooling machine, second surface heat exchanger 21 is located in air-cooler 6, and is positioned at first surface heat exchanger 9 fronts.

The method of operation of the cooling system shown in Fig. 4 is as follows:

After air-cooler 6 is located at air filter 7, the condensed water process atomizer nozzle 15 in condensation water tank 12 forms spraying, and air is first through spraying in air-cooler 6, and under evaporative cooling effect, air is cooled and lowers the temperature 4 ℃～6 ℃, with 21 heat exchange of second surface heat exchanger, air temperature is down to and is approached air dew point temperature, removes thus airborne sensible heat again, remove air after sensible heat again with 9 heat exchange of first surface heat exchanger, to the air dehumidification of lowering the temperature, air is down to the temperature of need of work, temperature required air enters gas compressor 1 after demister 8 is deviate from water droplet, the water droplet of deviating from is got back to condensation water tank 12 and is used as the cooling low-temperature receiver of spray evaporation, gas after being compressed by gas compressor 1 enters firing chamber 2 and forms high-temperature fuel gas with fuel combustion, flow into immediately combustion gas turbine 3 expansion actings, the flue gas of 530 ℃～550 ℃ that combustion machine is discharged enters exhaust heat boiler 4, the flue gas of discharging approximately 160 ℃～170 ℃ after heat exchange enters hot water heat exchanger 17, and carry out after heat exchange with the hot water that hot-water type bromine cooling machine 18 provides, hot water after heat exchange directly drives chilled water for the driving heat source of hot-water type bromine cooling machine 18, flue gas after heat exchange is cooled to approximately 110 ℃～130 ℃ and discharges from chimney 5.

Particularly, the condensed water of deviating from after air and two surface heat exchanger heat exchange flows into condensation water tank 12, through condensate pump 13, pressurize and after filtration equipment for clarifying 16, send into again atomizer nozzle 15 to the air direct evaporative cooling of spraying, now, the condensed water producing in indirect contact heat exchanger cooling procedure is recovered in condensation water tank 12, and capable of circulation as the direct transpiration-cooled low-temperature receiver use of spraying;

Exhaust heat boiler 4 is discharged the flue gas of approximately 160 ℃～170 ℃ and is entered hot water heat exchanger 17, after pressurizeing under the effect of hot water circulating pump 19, hot-water type bromine cooling machine 18 90 ℃ of hot water out send into hot water heat exchanger 17 simultaneously, 90 ℃ of hot water are under the heat effect of the flue gas of 160 ℃～170 ℃, be warming up to after approximately 130 ℃, by pipeline, send into hot-water type bromine cooling machine 18 as driving heat source, and the flue gas cool-down of 160 ℃～170 ℃ is discharged through chimney 5 after approximately 110 ℃～130 ℃, the high temperature chilled water of 14 ℃～16 ℃ that hot-water type bromine cooling machine 18 is made on 130 ℃ of driving heat source bases is under the second chilled water circulating pump 20 effects and send into second surface heat exchanger 21 after pressurization, after air heat-exchange, the high temperature chilled water of 14 ℃～16 ℃ is warming up to 19 ℃～21 ℃, and by pipeline, to send hot-water type bromine cooling machine 18 back to again cooled, realization recycles, the cold that utilizes the smoke discharging residual heat of exhaust heat boiler 4 to produce accounts for 12%～18% left and right of total chilling requirement, most of chilling requirement is by producing to refrigerator 11, the cryogenic freezing water of 5 ℃～7 ℃ that main refrigerator 11 is made is under the first chilled water circulating pump 10 effects and send into first surface heat exchanger 9 after pressurization, enter after heat exchange with air, the cryogenic freezing water of 5 ℃～7 ℃ is warming up to 10 ℃～12 ℃, and by pipeline, to send main refrigerator 11 back to again cooled, and realization recycles.

In cooling system shown in Fig. 4, the air inlet of combustion machine is cooling through three grades, respectively the direct evaporative cooling of spraying, second surface heat exchanger indirect heat exchange is cooling, first surface heat exchanger indirect heat exchange is cooling, three grades of cooling low-temperature receivers are respectively that two surface heat exchangers are by the condensed water of deviating from Air-cooling Process, the high temperature chilled water that utilizes the hot water of exhaust heat boiler smoke discharging residual heat generation to drive hot-water type bromine cooling machine to produce, the cryogenic freezing water that main refrigerator is produced, and this cooling system makes full use of exhaust heat boiler smoke discharging residual heat, reduced operating cost, and hot-water type bromine cooling machine self power consumption is little, significantly reduced power consumption reaching in same temperature drop effect situation, on the other hand, this cooling system has utilized the condensed water and the low-temperature flue gas refrigeration that reclaim, therefore, the electric motor power of the main refrigerator of production high-grade chilled water can significantly reduce, the electric motor power of the main refrigerator in Fig. 4 only need to can meet the demands for 62%～70% of total chilling requirement, the electric motor power of the main refrigerator in Fig. 3 only need to can meet the demands for 75%～85% of total chilling requirement, reach thus energy-conservation object.

Cooling system described in the utility model, no matter being that indirect contact heat exchanger is cooling is used in combination with the direct evaporative cooling of spraying, still set up on this basis and utilize exhaust heat boiler smoke discharging residual heat to drive bromine cooling machine refrigeration, all be applicable to hot and humid area, under the same temperature drop effect of combustion machine air inlet, reduce energy consumption, improve combustion machine simply and Combined Cycle Unit performance, reduce the electric motor power of main refrigerator, reduce once investment and operating cost.By suitable adjustment, directly sprayed and connect after evaporative cooling and the cooling ratio of indirect contact heat exchanger, the utility model also goes for high temperature drying area.

More than describing is to explanation of the present utility model, is not the restriction to model utility, and the utility model limited range, referring to claim, within protection domain of the present utility model, can be done any type of modification.

Claims (3)

1. combined energy-saving type Inlet Air Cooling System of Gas Turbine, comprise gas compressor (1), gas compressor (1) outlet side is connected with firing chamber (2) inlet end, outlet side, firing chamber (2) is connected with combustion gas turbine (3) inlet end, the inlet end of gas compressor (1) is connected with the air outlet pipeline of air-cooler (6), the suction port of air-cooler (6) is connected with the air outlet of air filter (7), air-cooler (6) inside is provided with demister (8), first surface heat exchanger (9) is located in air-cooler (6), the water intake of first surface heat exchanger (9) is connected with the water outlet of the first chilled water circulating pump (10), the water intake of the first chilled water circulating pump (10) is connected with the chilled water outlet of main refrigerator (11), the water outlet of first surface heat exchanger (9) is connected with the chilled water import of main refrigerator (11), the water outlet of air-cooler (6) is connected with the water intake of condensation water tank (12), it is characterized in that: condensation water tank (12) is got back to air-cooler (6) by pressure duct (14), the pressure duct (14) stretching in air-cooler (6) is provided with atomizer nozzle (15), be positioned at the outside pressure duct (14) of air-cooler (6) and be provided with condensate pump (13) and condensed water filtrating equipment (16).

2. by combined energy-saving type Inlet Air Cooling System of Gas Turbine claimed in claim 1, it is characterized in that: the outlet side of described combustion gas turbine (3) is connected with the inlet end of exhaust heat boiler (4), the outlet side of exhaust heat boiler (4) is connected by pipeline with chimney (5).

3. by combined energy-saving type Inlet Air Cooling System of Gas Turbine claimed in claim 2, it is characterized in that: the described connecting pipeline of the outlet side of exhaust heat boiler (4) and chimney (5) is provided with hot water heat exchanger (17), the water intake of hot water heat exchanger (17) is connected by pipeline with hot-water type bromine cooling machine (18) hot water outlet, and on described connecting tube, be provided with hot water circulating pump (19), the water outlet of hot water heat exchanger (17) is connected with hot-water type bromine cooling machine (18) thermal source inlet pipeline; The chilled water outlet of hot-water type bromine cooling machine (18) is connected with the water intake of the second chilled water circulating pump (20), the water outlet of the second chilled water circulating pump (20) is connected with the water intake of second surface heat exchanger (21), the water outlet of second surface heat exchanger (21) is connected with hot-water type bromine cooling machine (18) chilled water import, second surface heat exchanger (21) is located in air-cooler (6), and is positioned at first surface heat exchanger (9) front.

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