RU2533601C2 - Power plant with combined-cycle plant - Google Patents

Abstract

FIELD: power industry.

SUBSTANCE: invention relates to power engineering. A power plant including a combined-cycle plant can be used for addition of steam-turbine power plants; besides, addition is performed with a combined-cycle plant with a compressor driven from a condensing steam turbine with ultra-supercritical initial steam parameters.

EFFECT: invention allows increasing heat efficiency and capacity of power units with typical steam-turbine power units.

2 dwg

Description

A power plant with a combined-cycle plant belongs to the field of energy, and more specifically, to the modernization of condensing steam turbine power plants.

Steam turbine power units with intermediate steam overheating with subcritical and supercritical initial steam parameters are known. Along with high power, they have a relatively low thermal efficiency with an efficiency of 40-41% [Ryzhkin V.Ya. Thermal power plants. Textbook for high schools. M .: Energy, 1976. Fig. 16-3, p. 14-15, fig. 13-1].

One of the ways to increase the efficiency of energy blocks is the application of super supercritical steam parameters (SSCP), which make it possible to achieve a block efficiency of 45-46% (Ilyin EG, Tishin SA, “Advanced technologies and power plants for the production of thermal and electric energy. 6. Experience of using super supercritical parameters of steam. ”Http://www.nst.e-apbe.ru/book/6.1.4.pdf). Even greater efficiency of steam turbine power units can be achieved by superstructure with combined-cycle plants. (Tsanev S.V., Burov V.D., Remezov A.N. Gas-turbine and combined-cycle plants of thermal power plants. M.: MEI Publishing House. 2002) (RF patent No. 2106500, F01K 7/00). The heat of the exhaust gas from a gas turbine gas turbine is used in a waste heat boiler to generate steam entering a steam turbine.

Known combined-cycle plant with a steam turbine compressor drive and a condensing steam turbine. The condenser steam turbine rotor is connected by a shaft to the compressor rotor, and the gas turbine rotor is connected by a shaft to the rotor of an electric generator. A combined-cycle plant with a steam-turbine compressor drive has, in comparison with typical combined-cycle plants, an increased gas temperature at the outlet of the gas turbine, a large steam capacity of the recovery boiler and a lower unit cost (Zaryankin A.E., Zaryankin V.A., Storozhuk S.K. , Arianov S.V. Comparative analysis of schemes of technical training colleges with gas-turbine and steam-turbine compressor drives. Gas-turbine technologies, 2008, No. 3., p. 46).

This combined-cycle plant, adopted as a prototype of the invention, cannot be used to add on existing condensing steam turbine power units with an increase in their power and thermal efficiency.

The aim of the invention is to increase the thermal efficiency and power of power plants with typical steam turbine power units due to their superstructure with combined-cycle plants with a steam drive of the compressor without reconstructing steam boilers, as well as the main and auxiliary power equipment of steam turbine power units.

This goal is achieved due to the fact that a typical steam turbine power unit with subcritical or supercritical parameters of steam is built up with a combined cycle gas turbine unit driven by a compressor from a condensing steam turbine with supercritical initial parameters of steam.

A power plant with a combined cycle plant, comprising: a gas turbine unit with a low pressure compressor, an intercooler, a high pressure compressor, a high pressure combustion chamber, a high pressure gas turbine, a low pressure combustion chamber, a low pressure gas turbine, an electric generator; recovery boiler with a steam generator, condensing steam turbine; the exhaust of the low pressure gas turbine is connected by a gas duct to the input of the recovery boiler, the superheater is connected by a steam line to the inlet of the condensing steam turbine, the rotors of the high and low pressure gas turbines are connected by a common shaft to the rotor of the electric generator, the rotors of the low and high pressure compressor are connected by a common shaft to the condenser steam turbine rotor ; moreover, the waste heat boiler of the combined cycle plant and the condensing steam turbine of the gas turbine unit are made with supercritical pressure of the feed water and the generated steam; in the power plant, a condensing steam turbine power unit is used, comprising a steam boiler with an intermediate superheater, a condensing steam turbine, a high pressure deaerator, a feed pump, regenerative heaters of low and high pressure, an electric generator, a condensing steam turbine power unit is additionally equipped with a vacuum deaerator; the combined cycle plant is additionally equipped with an intermediate air cooler, super supercritical steam superheater, booster feed pump, super super critical pressure feed pump with condensing turbo drive; in the recovery boiler, a gas-water heater for the feed water of the steam turbine power unit and a gas-water heater for deaerated water are additionally installed; a steam boiler superheater is connected by a steam line to the inlet of a condensing steam turbine of a steam turbine power unit, the condenser of which is connected by a pipeline to a gas-water feed water heater; a superheater of supercritical steam parameters is located in the low pressure duct of the gas turbine plant between the high pressure gas turbine and the low pressure combustion chamber, an intermediate air cooler is located in the duct between the low and high pressure compressors; the output of the recovery boiler is connected by a super-supercritical pressure steam line through a super-supercritical steam parameter superheater and a super-supercritical pressure steam line with a condensing steam turbine inlet with super-critical initial steam parameters, the condenser of which is connected by condensate pipelines through an intermediate air cooler to the first inlet of an additional vacuum super-condensing suction pump connected to the gas inlet a water heater for the feed water of the recovery boiler; the input of the condensing steam turbine of the super-critical pressure feed pump is connected by a steam line to a hot industrial superheater pipeline of a steam turbine power unit, the condenser of which is connected by a condensate line to the second input of an additional vacuum deaerator, while its third input is connected by a pipeline to the high pressure deaerator of the steam turbine power unit; the outlet of the additional vacuum deaerator is connected by a deaerated water pipeline through the booster pump to the inlet of the gas-water heater, the outlet of which is connected by the feed water pipe to the inlet of the super supercritical pressure feed pump with a condensing turbo drive; the feed pump of the steam turbine power unit is connected to the input of the steam boiler through the gas-water heater of the feed water of the steam turbine power unit.

The present invention has a number of new features in comparison with the prototype:

- the condensing steam turbine of the combined cycle plant has super supercritical steam parameters, which allows to increase the air flow through the compressors, the electric power of the gas turbine, the gas flow through the recovery boiler, to increase the electric power of the condensing steam turbine of the steam turbine power unit by displacing regenerative steam samples to high pressure heaters;

-the use of two-stage compression and two-stage heat supply in a gas turbine installation and super-supercritical parameters in a combined-cycle plant allows to increase thermal efficiency and electric power of the installation;

-the use of a gas-water heater for feed water of a steam turbine power unit allows to reduce the temperature of the flue gases and increase the efficiency of the waste heat boiler;

- placement of a superheater of supercritical steam parameters in a low-pressure gas duct of a gas turbine unit allows to reduce its metal consumption and lower cost due to the saving of expensive high alloy steel;

- the proposed power plant, including a combined cycle plant, can be used to add steam-turbine power units of both subcritical and supercritical parameters of steam, and reconstruction of their thermal circuit is not required, which reduces investment in the superstructure.

Figure 1, shows a schematic diagram of a power plant with combined-cycle plant, and in Fig. 2 shows its block diagram.

In FIG. 1 shows: 1 - steam-turbine power unit, 2 - gas-turbine unit, 3 - heat recovery unit of a gas-turbine unit.

A steam turbine power unit 1 includes: a main steam line 16, a condensation steam turbine 17, an electric generator 18, a steam boiler with an intermediate superheater 19, a hot steam superheater 20, regenerative high pressure heaters 21, regenerative low pressure heaters 22, high pressure deaerator 23, feed pump 24, feed water pipelines 25, heating water pipe 26, vacuum deaerator 27, heated condensate pipe 28, condensate pipe 29, deaerated water pipe 30, pipe 31 oprovod recirculation.

The gas turbine unit 2 includes: a super-critical steam condensation steam turbine 4, a low pressure compressor 5, an intermediate air cooler 6, a high pressure compressor 7, a high pressure combustion chamber 8, a high pressure gas turbine 9, a super supercritical steam parameters superheater 10, a super supercritical pressure steam pipe 11, a low pressure gas duct 12, a low pressure combustion chamber 13, a low pressure gas turbine 14, an electric generator 15.

The heat recovery unit of a gas turbine unit 3 includes: a gas duct 32, a waste heat boiler 33, a steam turbine drive pipe 34, a heated feed water pipe 35, a supercritical pressure steam pipe 36, a supercritical pressure steam generator 37, a water-gas feed water heater for a steam turbine power unit 38, a super supercritical feed pump with condensation pressure turbo-drive 39, gas-water heater of deaerated water 40, booster pump 41, condensate pipe 42, exhaust gas pipe 43.

A steam boiler with an intermediate superheater 19 of a steam turbine power unit 1 is connected by a sharp steam steam line to a condensing steam turbine 17 connected by a common shaft to an electric generator 18. The turbine condenser 17 is connected by a pipe through low-pressure regenerative heaters 22 to a high-pressure deaerator 23. The latter through a high-pressure feed pump 24 connected by a first feedwater pipe 25 through high pressure heaters 21 to a steam boiler 19, and a second feedwater pipe 25 is connected through a gas-water feedwater heater 38 of a steam turbine power unit and a heated feedwater pipe 35 to the inlet of the steam boiler 19. The high pressure deaerator 23 is connected by a heating water pipe 26 to the first inlet of the vacuum deaerator 27. The second input of which is connected by a heated condensate pipe 28 through an intermediate air cooler 6, located in the duct between the low and high pressure compressors, with a condenser of a condensation turbine of super supercritical steam parameters 4. the third inlet of the vacuum deaerator 27 is connected by a condensate conduit 29 to the turbine turbine condenser of the supercritical pressure feed pump 39. The output of the vacuum deaerator 27 is connected by a deaerated water pipe 30 through a booster pump 41, a gas-water heater of deaerated water 40 and a super supercritical pressure feed pump 39 with a condensing supercreative turbo drive 39 pressure 37 of the boiler - utilizer 33, as well as through the recirculation pipe 31 and the condensate pipe that 29 with the third inlet of the vacuum deaerator 27. The output of the super supercritical pressure steam generator 37 is connected by the super supercritical pressure steam line 36 to the super supercritical steam parameter superheater input 10. The output of the latter is connected by the super supercritical pressure steam conduit 11 with the super supercritical steam condensing steam turbine input 4 having a common compressor shaft 4 with a common compressor shaft 4 5 and high pressure 7. The output of the low pressure compressor 5 through the intermediate air cooler 6 and compress The high-pressure head 7 is connected to the high-pressure combustion chamber 8. The latter is connected through a high-pressure gas turbine 9, a super-supercritical steam superheater 10, a low-pressure gas duct 12, a low-pressure combustion chamber 13, a low-pressure gas turbine 14 is connected by a gas duct 32 to a waste heat boiler 33 The rotors of gas turbines high 9 and low pressure 14 are connected by a common shaft with the rotor of the electric generator 15. The output of the waste heat boiler 33 is connected by the exhaust gas pipe 43 to the atmosphere.

A power plant with a combined cycle gas turbine power unit, works as follows.

The air compressed in the low-pressure compressor 5 is cooled in the intermediate air cooler 6, using its heat to heat the condensate of the steam of the condensing steam turbine of super supercritical parameters of steam 4 supplied to the intermediate air cooler 6 through the condensate pipe 42 and discharged into the vacuum deaerator 27 through the heated condensate pipe 28 The air cooled in the intermediate air cooler 6 is compressed in the high-pressure compressor 7, and fuel is burned in it in the high-pressure combustion chamber 8. The combustion products expand in the high-pressure gas turbine 9, are cooled in the superheater of the supercritical steam 10 in the superheater, overheating the steam supplied through the super-supercritical pressure steam line 36 from the supercritical pressure steam generator 37 of the recovery boiler 33. The superheated steam is fed through the super-supercritical pressure steam line 11 to the super-supercritical steam condenser 11 parameters of steam 4, the useful work of which is used to drive compressors low 5 and high pressure 7. The combustion products, after the gas turbine 9, are partially cooled in the super supercritical parameters 10 superheater, pass through the low pressure gas pipeline 12 through the low pressure combustion chamber 13, where their temperature is increased by burning fuel, then they expand in the low pressure gas turbine 14 and, through the duct 32, are sent to a waste heat boiler 33. The useful work of a high pressure gas turbine 9 and a low pressure gas turbine 14 is used to generate electricity in an electric generator 15. V waste heat boiler 33 the heat of the gases is used to generate steam in a supercritical pressure steam generator 37, to heat the feed water in the gas-water heater feed water of the steam turbine power unit 38, and also to heat the feed water in the gas-water heater deaerated water 40. The cooled combustion products from the gas duct 43 are discharged into the atmosphere. Superheated steam from the steam boiler 19 of the steam turbine power unit through the main steam line 16 is supplied to the condensation steam turbine 17. The condensate of the exhaust steam of the condensation steam turbine 17 is supplied through low pressure regenerative heaters 22 to the high pressure deaerator 23, where it is deaerated. The useful work of the condensing steam turbine 17 is used to generate electricity in the electric generator 18. A part of the superheated steam after the intermediate superheater of the steam boiler 19 is supplied to the inlet of the condensing steam turbine of the super-critical pressure feed pump turbine 34 through the steam superheater 39. The useful work of this turbine is used to drive the super-super critical gas feed pump pressure 39. Condensate of steam from its condenser is supplied via condensate line 29 to the second inlet smart deaerator 27. Heating water is supplied to the first inlet of the vacuum deaerator 27 from the high-pressure deaerator 23 through a heating water pipe 26. The condensate of a super-supercritical condensing steam turbine is supplied to the third inlet of the vacuum deaerator 27 through a heated condensate pipe 28, previously heated in the intermediate air cooler 6. steam 4. Feed water from a high pressure deaerator 23 of a steam turbine power unit 1 is supplied by a feed pump 24 through a first feed water pipe 25 Through regenerative high-pressure heaters 21 to the steam boiler 19. The feed water supplied through the second feed water pipe 25 to the gas-water feed water heater 38 of the steam turbine power unit is heated in it by the heat of the gas turbine combustion products and sent through the heated feed water pipe 35 to the steam boiler 19 Deaerated water from the outlet pipe of the vacuum deaerator 27 through the pipeline deaerated condensate 30 through the booster pump 41, gas-water heater deaeers water 40 and a super-supercritical pressure feed pump with a condensing turbo drive 39 is supplied to a super-supercritical pressure steam generator 37. The steam generated therein is supplied to a super-supercritical steam steam superheater 36 and then to a super-supercritical steam 11 super-critical pressure super-critical steam turbine 11 four.

Claims (1)

A power plant with a combined cycle plant, comprising: a gas turbine unit with a low pressure compressor, an intercooler, a high pressure compressor, a high pressure combustion chamber, a high pressure gas turbine, a low pressure combustion chamber, a low pressure gas turbine, an electric generator; recovery boiler with a steam generator, condensing steam turbine; the exhaust of the low pressure gas turbine is connected by a gas duct to the input of the recovery boiler, the superheater is connected by a steam line to the inlet of the condensing steam turbine, the rotors of the high and low pressure gas turbines are connected by a common shaft to the rotor of the electric generator, the rotors of the low and high pressure compressor are connected by a common shaft to the condenser steam turbine rotor ; characterized in that the waste heat boiler of the combined cycle plant and the condensing steam turbine of the gas turbine unit are made with supercritical pressure of the feed water and the generated steam; in the power plant, a condensing steam turbine power unit is used, comprising a steam boiler with an intermediate superheater, a condensing steam turbine, a high pressure deaerator, a feed pump, regenerative heaters of low and high pressure, an electric generator, a condensing steam turbine power unit is additionally equipped with a vacuum deaerator; the combined cycle plant is additionally equipped with an intermediate air cooler, super supercritical steam superheater, booster feed pump, super super critical pressure feed pump with condensing turbo drive; in the recovery boiler, a gas-water heater for the feed water of the steam turbine power unit and a gas-water heater for deaerated water are additionally installed; a steam boiler superheater is connected by a steam line to the inlet of a condensing steam turbine of a steam turbine power unit, the condenser of which is connected by a pipeline to a gas-water feed water heater; a superheater of supercritical steam parameters is located in the low pressure duct of the gas turbine plant between the high pressure gas turbine and the low pressure combustion chamber, an intermediate air cooler is located in the duct between the low and high pressure compressors; the output of the recovery boiler is connected by a super-supercritical pressure steam line through a super-supercritical steam parameter superheater and a super-supercritical pressure steam line with a condensing steam turbine inlet with super-critical initial steam parameters, its condenser is connected by condensate pipelines through an intermediate air cooler to the first input of an additional vacuum super-pressure condenser suction pump, connected to the gas inlet the first feedwater heater of the recovery boiler; the input of the condensing steam turbine of the super-critical pressure feed pump is connected by a steam line to the hot industrial superheater of the steam turbine power unit, its condenser is connected by a condensate line to the second input of the additional vacuum deaerator, while its third input is connected by a pipe to the high pressure deaerator of the steam turbine power unit; the outlet of the additional vacuum deaerator is connected by a deaerated water pipeline through the booster pump to the inlet of the gas-water heater, the outlet of which is connected by the feed water pipe to the inlet of the super supercritical pressure feed pump with a condensing turbo drive; the feed pump of the steam turbine power unit is connected to the input of the steam boiler through the gas-water heater of the feed water of the steam turbine power unit.

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