RU2752123C1 - Thermal power station - Google Patents

Abstract

FIELD: thermal power engineering.SUBSTANCE: invention relates to thermal power engineering, it can be used in thermal power stations. The thermal power station contains a steam turbine unit consisting of a steam boiler connected via a steam super-heater to a high-pressure cylinder of the steam turbine unit, which is mechanically connected to a low-pressure cylinder of the steam turbine unit. The high-pressure cylinder of the steam turbine unit is connected, in turn, to an intermediate steam super-heater, to the third and first high-pressure heaters and to a deaerator on the hot side through the taps, as well as to a low-pressure cylinder of the steam turbine unit, which is the drive for the electric generator of the steam turbine unit. The intermediate steam super-heater is connected to the high-pressure cylinder of the steam turbine unit. The low-pressure cylinder of the steam turbine unit is connected to the first, second and third low-pressure heaters on the hot side through the taps and to the condenser of the steam turbine unit. The condenser of the steam turbine unit is connected to the condensate pump of the steam turbine unit. The condensate pump of the steam turbine unit is connected to the first low-pressure heater on the cold side and to the condensate pump of the steam-gas unit. The first, second, third and fourth low-pressure heaters are sequentially connected to each other on the cold side. The fourth low-pressure heater is connected to the deaerator on the cold side. The deaerator is connected via the feed pump of the steam turbine unit to the first high-pressure heater on the cold side. The first high-pressure heater is connected to the deaerator on the hot side, and to the second high-pressure heater on the cold side. The second high-pressure heater is connected to the first high-pressure heater and the medium-pressure reel of the steam-gas unit on the hot side, and to the third high-pressure heater on the cold side. The third high-pressure heater is connected to the second high-pressure heater on the hot side, and to a steam boiler on the cold side. The fourth low-pressure heater is also connected on the hot side to the low-pressure reel of the steam-gas unit, consisting of a compressor connected through the combustion chamber to a gas turbine, which is the drive for the first electric generator of the steam-gas unit. The gas turbine is connected to the recovery boiler, which, in turn, consists of a high-pressure steam super-heater connected to a high-pressure evaporator on the hot side, and to the high-pressure cylinder of the steam gas unit on the cold side, which is mechanically connected to the medium-pressure cylinder of the steam-gas unit. The high-pressure evaporator is connected to the medium-pressure steam super-heater on the hot side, and to the high-pressure reel of the steam-gas unit on the cold side. The medium-pressure super-heater is connected to the medium-pressure evaporator on the hot side, and to the medium-pressure cylinder of the steam-gas unit on the cold side, which is mechanically connected to the low-pressure cylinder of the steam-gas unit. The medium-pressure evaporator is connected to the low-pressure super-heater on the hot side, and to the medium-pressure reel of the steam-gas unit on the cold side. The low-pressure super-heater is connected to the high-pressure economizer on the hot side, and to the medium-pressure cylinder of the steam-gas unit on the cold side. The high-pressure economizer is connected to the medium-pressure economizer on the hot side, and to the high-pressure reel of the steam-gas unit on the cold side. The medium-pressure economizer is connected to the low-pressure evaporator on the hot side, and to the medium-pressure reel of the steam-gas unit on the cold side. The low-pressure evaporator is connected to the gas condensate heater on the hot side, and to the low-pressure reel of the steam-gas unit on the cold side. The gas condensate heater is connected to the atmosphere on the hot side, and to the low-pressure reel of the steam-gas unit on the cold side. The low-pressure reel of the steam-gas unit is connected through the water space to the low-pressure evaporator and through the medium and high-pressure feed pumps of the steam-gas unit to the medium and high-pressure economizers, respectively, and through the steam space to the low-pressure steam super-heater. The medium-pressure reel of the steam-gas unit is connected through the water space to the medium-pressure evaporator, and through the steam space to a medium-pressure steam super-heater and a second high-pressure heater. The high-pressure reel of the steam-gas unit is connected through the water space to the high-pressure evaporator, and through the steam space to a high-pressure steam super-heater. The high-pressure cylinder of the steam-gas unit is connected to the medium-pressure steam super-heater. The medium-pressure cylinder of the steam-gas unit is connected to the low-pr

Description

The invention relates to thermal power engineering, namely to devices for generating electrical energy, and can be used in thermal power plants.

Known thermal power plant containing at least two steam turbine with outlets, regenerative high and low pressure heaters, deaerators and condensers, and one of the turbine is equipped with an intermediate superheater, while in order to increase the efficiency and reliability, at least one regenerative high pressure of a turbine with an intermediate superheater is connected to the branch pipe for selecting the corresponding pressure of another turbine, and at least one low-pressure heater of the latter is connected to the branch pipe for selecting the corresponding pressure of a turbine with an intermediate superheater [A. USSR SU No. 775357 dated 30.10.80].

The disadvantage of the known thermal power plant is its low efficiency in view of the lower temperature of the heat supply and increased energy losses caused by high steam humidity in the low-pressure cylinder of a turbine plant without an intermediate superheater.

Known thermal power plant with displacement of the flow of high-temperature superheated steam to a high-pressure heater of a steam turbine plant with intermediate superheating by a flow of low-temperature superheated steam from a steam turbine without intermediate overheating [A.S. USSR SU No. 1802177 dated 03/15/93]. This thermal power plant contains at least two steam turbine plants with bleed pipes, regenerative high and low pressure heaters, deaerators, condensers and condensate pumps, and one of the turbines has an intermediate superheater, at least one of its regenerative high pressure heaters is connected to the corresponding pressure take-off pipe of another turbine unit, where, in addition, a deaerator of the turbine unit with an intermediate superheater is connected by means of pipelines with pressure reducing valves, while at least one of its low-pressure heaters of the other unit is connected to the corresponding pressure take-off pipe of the turbine unit with an intermediate superheater, where in addition, a network steam-water heat exchanger is connected, while, in order to increase efficiency and reliability, a condensate pump of a steam turbine plant without an intermediate superheater by means of a pipe A gadfly with a shut-off device is additionally connected to the condensate of a turbine unit with an intermediate superheater of steam, and a regenerative low-pressure heater of the latter, switched on before its deaerator, is additionally connected to a deaerator of a turbine unit without an intermediate superheater by means of a pipeline with a shut-off device.

The disadvantage of the known thermal power plant is its low efficiency in view of the lower temperature of the heat supply and increased energy losses caused by high steam humidity in the low-pressure cylinder of a turbine plant without an intermediate superheater.

Known thermal power plant [Patent RU No. 2691881 from 06/18/19], containing a steam turbine unit, consisting of a steam boiler connected through a superheater with a high pressure cylinder of the steam turbine unit, which is mechanically connected to the low pressure cylinder of the steam turbine unit, the high pressure cylinder of the steam turbine the block is connected, in turn, with an intermediate superheater, with the third and first high pressure heaters on the hot side, a deaerator and the fourth low pressure heater on the hot side through extractions, as well as with a low pressure cylinder of the steam turbine unit, which is a drive for the electric generator of the steam turbine unit , an intermediate superheater is connected to the high pressure cylinder of the steam turbine unit, the low pressure cylinder of the steam turbine unit is connected to the first, second and third low pressure heaters on the hot side through the extracts and condenser of the steam turbine unit, the condenser of the steam turbine the unit is connected to the condensate pump of the steam turbine unit, the condensate pump of the steam turbine unit is connected to the first low pressure heater on the cold side, the first, second, third and fourth low pressure heaters are connected in series to each other on the cold side, the fourth low pressure heater on the cold side is connected to deaerator, the deaerator is connected to the first high pressure heater on the cold side through the feed pump of the steam turbine unit, the first high pressure heater is connected to the deaerator on the hot side, and to the second high pressure heater on the cold side, the second high pressure heater is connected to the first heater on the hot side high pressure, and on the cold side - with the third high pressure heater, the third high pressure heater is connected on the hot side with the second high pressure heater, and on the cold side - with the steam boiler, while the second high pressure heater on the hot side it is also connected to the medium-pressure drum of the steam-gas unit, and the condensate pump of the steam-turbine unit is also connected to the condensate pump of the steam-gas unit, consisting of a compressor connected through a combustion chamber with a gas turbine that drives the first electric generator of the steam-gas unit, the gas turbine is connected to a waste-heat boiler, which, in turn, consists of a high-pressure superheater connected on the hot side with a high-pressure evaporator, and on the cold side - with a high-pressure cylinder of a steam-gas block, which is mechanically connected to a medium-pressure cylinder of a steam-gas block, a high-pressure evaporator according to the hot side is connected to a medium-pressure superheater, and on the cold side - to the high-pressure drum of the steam-gas block, the medium-pressure superheater on the hot side is connected to the medium-pressure evaporator, and on the cold side - to the medium-pressure cylinder of the steam-gas block, which is mechanically ski is connected to the low-pressure cylinder of the steam-gas block, the medium-pressure evaporator is connected on the hot side with the low-pressure superheater, and on the cold side - with the medium-pressure drum of the steam-gas block, the low-pressure superheater is connected on the hot side with the high-pressure economizer, and on the cold side - with the cylinder medium pressure of the steam-gas block, the high-pressure economizer is connected on the hot side with the medium-pressure economizer, and on the cold side - with the high-pressure drum of the steam-gas block, the medium-pressure economizer is connected on the hot side with the low-pressure evaporator, and on the cold side - with the medium-pressure drum of the steam-gas block , the low-pressure evaporator on the hot side is connected to the gas condensate heater, and on the cold side - to the low-pressure drum of the steam-gas block, the gas condensate heater is connected to the atmosphere on the hot side, and on the cold side - to the low-pressure drum of the steam-gas block, the drum is on the bottom pressure of the steam-gas block through the water space is connected with the low-pressure evaporator and through the medium and high-pressure feed pumps of the steam-gas block with medium and high-pressure economizers, respectively, and through the steam space - with the low-pressure superheater, the medium-pressure drum of the steam-gas block is connected through the water space with a medium pressure evaporator, and on a steam - with a medium pressure superheater, a high-pressure drum of a steam-gas unit is connected to a high-pressure evaporator in the water space, and a high-pressure steam superheater in a steam space, a high-pressure cylinder of a steam-gas unit is connected to a medium-pressure superheater, a medium-pressure cylinder of a steam-gas the unit is connected to the low-pressure cylinder of the steam-gas block, the low-pressure cylinder of the steam-gas block, which is the drive for the second electric generator of the steam-gas block, is connected to the condenser of the steam-gas block, the condenser the steam-gas unit is connected to the condensate pump of the steam-gas unit, the condensate pump of the steam-gas unit is connected to the gas condensate heater.

The disadvantage of the known thermal power plant is the incomplete use of the potential for displacing high-temperature steam extraction to the regenerative heaters of the steam turbine unit.

The objective of the invention is to improve the thermal power plant, which makes it possible to increase the electrical efficiency of the thermal power plant and increase its service life.

The technical result consists in increasing the thermodynamic efficiency and reliability of the thermal power plant.

The technical result is achieved in that the thermal power plant contains a steam turbine unit, consisting of a steam boiler connected through a superheater with a high pressure cylinder of a steam turbine unit, which is mechanically connected to a low pressure cylinder of a steam turbine unit, a high pressure cylinder of a steam turbine unit is connected, in turn, with an intermediate superheater, with the third and first high-pressure heaters and a deaerator on the hot side through extractions, as well as with a low-pressure cylinder of a steam turbine unit, which is a drive for an electric generator of a steam turbine unit, an intermediate superheater is connected to a high-pressure cylinder of a steam turbine unit, a low-pressure cylinder of a steam turbine unit connected to the first, second and third low-pressure heaters on the hot side through extractions and the condenser of the steam turbine unit, the condenser of the steam turbine unit is connected to the condensate pump of the steam turbine unit, condensation the steam turbine unit is connected to the first low pressure heater on the cold side and the condensate pump of the steam and gas unit, the first, second, third and fourth low pressure heaters are connected in series with each other on the cold side, the fourth low pressure heater on the cold side is connected to the deaerator, deaerator through the feed pump of the steam turbine unit is connected to the first high pressure heater on the cold side, the first high pressure heater is connected to the deaerator on the hot side, and to the second high pressure heater on the cold side, the second high pressure heater on the hot side is connected to the first high pressure heater and the medium pressure drum of the steam-gas unit, and on the cold side - with the third high-pressure heater, the third high-pressure heater on the hot side is connected to the second high-pressure heater, and on the cold side - to the steam boiler, while the fourth The low-pressure heater on the hot side is also connected to the low-pressure drum of the steam-gas unit, which consists of a compressor connected through a combustion chamber with a gas turbine, which drives the first electric generator of the combined-cycle gas unit, the gas turbine is connected to a waste heat boiler, which, in turn, consists of a high-pressure superheater connected on the hot side with a high-pressure evaporator, and on the cold side - with a high-pressure cylinder of a steam-gas block, which is mechanically connected to a medium-pressure cylinder of a steam-gas block, a high-pressure evaporator on the hot side is connected to a medium-pressure superheater, and cold - with the high-pressure drum of the steam-gas block, the medium-pressure superheater on the hot side is connected to the medium-pressure evaporator, and on the cold side - to the medium-pressure cylinder of the steam-gas block, which is mechanically connected to the low-pressure cylinder of the steam-gas block, the cp evaporator low pressure on the hot side is connected to a low-pressure superheater, and on the cold side - to a medium-pressure drum of a steam-gas block, a low-pressure superheater on the hot side is connected to a high-pressure economizer, and on a cold side - to a medium-pressure cylinder of a steam-gas block, a high-pressure economizer on a hot connected to the medium-pressure economizer on the side, and on the cold side to the high-pressure drum of the steam-gas block, the medium-pressure economizer on the hot side is connected to the low-pressure evaporator, and on the cold side - to the medium-pressure drum of the steam-gas block, the low-pressure evaporator on the hot side is connected to the gas a condensate heater, and on the cold side - with a low-pressure drum of a steam-gas unit, a gas condensate heater on the hot side is connected to the atmosphere, and on a cold side - to a low-pressure drum of a steam-gas unit, a low-pressure drum of a steam-gas unit is connected to evaporation in the water space low pressure and through medium and high pressure feed pumps of the steam-gas block with medium and high-pressure economizers, respectively, and through the steam space - with a low-pressure superheater, the medium-pressure drum of the steam-gas block is connected through the water space with the medium-pressure evaporator, and through the steam space - with a medium-pressure superheater and a second high-pressure heater, a high-pressure drum of a steam-gas block is connected to a high-pressure evaporator in the water space, and a high-pressure steam superheater in a steam space, a high-pressure cylinder of a steam-gas block is connected to a medium-pressure superheater, a medium-pressure cylinder of a steam-gas block is connected to a cylinder low pressure of the steam-gas block, the low-pressure cylinder of the steam-gas block, which is the drive for the second electric generator of the steam-gas block, is connected to the condenser of the steam-gas block, the condenser of the steam-gas block is connected to the end the condensate pump of the steam-gas unit, the condensate pump of the steam-gas unit is connected to the gas condensate heater.

The beneficial effect is to increase the thermodynamic efficiency of the power plant by displacing the high-temperature steam extraction from the high-pressure cylinder of the steam-turbine unit to the fourth low-pressure heater with dry steam from the low-pressure drum of the steam-gas unit.

Due to a decrease in the mass flow rate of steam in the low pressure superheater, the temperature of the steam at its outlet increases. This leads to an increase in the available heat drop in the cylinders of the medium and low pressure of the steam-gas block, and also increases the degree of dryness of the steam in the outlet stages of the low-pressure cylinder of the steam-gas block. Both of these factors have a positive effect on the efficiency of the steam turbine of a combined cycle gas unit, and hence on the efficiency of the power plant as a whole. In addition, an increase in the degree of steam dryness in the last stages of the low-pressure cylinder of the steam-gas block leads to a decrease in the erosion effect of moisture particles on its blades, which increases their service life and the reliability of the steam-gas block.

The drawing shows a thermal power plant, which consists of a steam turbine unit consisting of a steam boiler 1 connected through a superheater 2 to a high pressure cylinder of a steam turbine unit 3, which is mechanically connected to a low pressure cylinder of a steam turbine unit 10. The high pressure cylinder of a steam turbine unit 3 is connected, in turn, with an intermediate superheater 5, with the third 6 and first 7 high-pressure heaters and a deaerator 8 on the hot side through extractions, as well as with a low-pressure cylinder of the steam turbine unit 10, which is a drive for the electric generator of the steam turbine unit 4. The intermediate superheater 5 is connected with the high pressure cylinder of the steam turbine unit 3. The low pressure cylinder of the steam turbine unit 10 is connected to the first 13, the second 12 and the third 11 low pressure heaters on the hot side through extractions and the condenser of the steam turbine unit 14. The condenser of the steam turbine unit 14 is connected to the condensate the pump of the steam turbine unit 15. The condensate pump of the steam turbine unit 15 is connected to the first low pressure heater 13 on the cold side and the condensate pump of the steam-gas unit 19. The first 13, second 12, third 11 and fourth 9 low pressure heaters are connected in series with each other on the cold side. The fourth low pressure heater 9 on the cold side is connected to the deaerator 8. The deaerator 8 is connected through the feed pump of the steam turbine unit 16 to the first high pressure heater 7 on the cold side. The first high-pressure heater 7 is connected on the hot side with the deaerator 8, and on the cold side - with the second high-pressure heater 17. The second high-pressure heater 17 is connected on the hot side with the first high-pressure heater 7 and the medium-pressure drum of the steam-gas block 18, and along the cold - with the third high pressure heater 6. The third high pressure heater 6 is connected on the hot side with the second high pressure heater 17, and on the cold side - with the steam boiler 1. In this case, the fourth low pressure heater 9 on the hot side is additionally connected to the medium pressure drum of the steam-gas block 38. The steam-gas block consists of a compressor 20 connected through a combustion chamber 21 with a gas turbine 22, which drives the first electric generator of a combined-cycle gas block 23. The gas turbine 22 is connected to a waste heat boiler 24, which, in turn, consists of a superheater of high pressure 25, hot coupled the th side with the high-pressure evaporator 26, and on the cold side with the high-pressure cylinder of the steam-gas block 27, which is mechanically connected to the medium-pressure cylinder of the steam-gas block 32, the high-pressure evaporator 26 is connected on the hot side with the medium-pressure superheater 29, and on the cold side - with high-pressure drum of the steam-gas block 30, the medium-pressure superheater 29 is connected on the hot side with the medium-pressure evaporator 31, and on the cold side - with the medium-pressure cylinder of the steam-gas block 32, which is mechanically connected to the low-pressure cylinder of the steam-gas block 41, the medium pressure evaporator 31 is hot the side is connected to a low-pressure superheater 33, and on the cold side - to the medium-pressure drum of the steam-gas block 18, the low-pressure superheater 33 on the hot side is connected to the high-pressure economizer 34, and on the cold side - to the medium-pressure cylinder of the steam-gas block 32, the high-pressure economizer 34 on hot st orone is connected to the medium pressure economizer 35, and on the cold side - to the high pressure drum of the steam-gas unit 30, the medium-pressure economizer 35 is connected to the low-pressure evaporator 36 on the hot side, and on the cold side to the medium-pressure drum of the steam-gas unit 18, the low pressure evaporator 36 on the hot side it is connected to the gas condensate heater 37, and on the cold side - to the low pressure drum of the steam-gas unit 38, the gas condensate heater 37 is connected to the atmosphere on the hot side, and on the cold side - to the low-pressure drum of the steam-gas unit 38, the low-pressure drum of the steam-gas unit 38 through the water space is connected with the low-pressure evaporator 36 and through the medium 39 and high 40 pressure feed pumps of the steam-gas block with economizers of medium 35 and high 34 pressures, respectively, and through the steam space - with the low-pressure superheater 33, the medium-pressure drum of the steam-gas block 18 according to water space connected to the medium pressure evaporator 31, and through the steam - to the medium pressure steam superheater 29, the high pressure drum of the steam-gas unit 30 is connected through the water space to the high-pressure evaporator 26, and through the steam to the high-pressure superheater 25. The high-pressure cylinder of the steam-gas block 27 is connected to medium pressure steam superheater 29. The medium pressure cylinder of the steam-gas block 32 is connected to the low-pressure cylinder of the steam-gas block 41. The low-pressure cylinder of the steam-gas block 41, which drives the second electric generator of the steam-gas block 28, is connected to the condenser of the steam-gas block 42. The condenser of the steam-gas block 42 is connected to the condensate pump of the steam-gas unit 19. The condensate pump of the steam-gas unit 19 is connected to the gas condensate heater 37.

Thermal power station operates as follows. In the steam boiler 1, dry saturated water vapor is formed, which is superheated in the superheater 2. From the superheater 2, steam is supplied to the inlet of the high pressure cylinder of the steam turbine block 3, which is the drive for the electric generator of the steam turbine unit 4. After partial expansion in the high pressure cylinder of the steam turbine block 3, steam returns to the steam boiler 1, namely to the intermediate superheater 5, where it is reheated. A part of this flow is taken to the third high-pressure heater 6 to heat the feed water in front of the steam boiler 1, while its condensation occurs. Bleed steam condensate from the third high-pressure heater 6 is directed to the second high-pressure heater 17, where it boils and mixes with steam from the medium-pressure drum of the steam-gas unit 18. The main steam flow of the steam turbine unit from the intermediate superheater 5 is again fed into the high-pressure cylinder of the steam turbine unit 3. In the course of its movement in the high-pressure cylinder of the steam turbine unit 3, a number of unregulated extractions is arranged. Extractions to the second high pressure heater 17 and the fourth low pressure heater 9 are not used. Steam from the uncontrolled extraction of the high pressure cylinder of the steam turbine block 3 is directed to the first high pressure heater 7 and deaerator 8. In the first high pressure heater 7 it is used to heat feed water. Here it is mixed with the steam flow formed during the boiling of condensate from the second high-pressure heater 17, condensed and sent to the deaerator 8. In the deaerator 8, the selected steam is used to clean the flow of the main condensate supplied from the condenser of the steam turbine unit 14 by the condensate pump of the steam turbine unit 15 through the first 13, second 12, third 11 and fourth 9 low pressure heaters, from oxygen and other non-condensable gases. The main steam flow from the high pressure cylinder of the steam turbine block 3 is fed into the low pressure cylinder of the steam turbine block 10, which is the drive for the electric generator of the steam turbine block 4. A number of unregulated extractions is arranged in the direction of steam movement in the low pressure cylinder of the steam turbine block 10. Bleed steam is directed to the third 11, second 12 and first 13 low pressure heaters, where it is used to heat the main condensate stream from the condenser of the steam turbine unit 14. The condensate of the steam used to heat the main condensate stream is cascaded from the fourth low pressure heater 9 into the steam space of the third low pressure heater 11, then to the second low pressure heater 12, then to the first low pressure heater 13. From the first low pressure heater 13, the bled steam condensate is directed to the condenser of the steam turbine unit 14. The main steam flow from the low pressure cylinder of the steam turbine unit 10 is supplied into the condenser of the steam turbine unit 14, where it condenses, giving its heat to the cooling water. The main flow of condensate from the condenser of the steam turbine unit 14 by the condensate pump of the steam turbine unit 15 is directed to the deaerator 8, sequentially passing through the first 13, second 12, third 11 and fourth 9 low pressure heaters. Part of the main stream of condensate is directed to the inlet of the condensate pump of the steam-gas unit 19 to maintain mass balance. From the deaerator 8, the feed water is fed by the feed pump of the steam turbine unit 16 to the steam boiler 1, sequentially passing through the first high-pressure heater 7, the second high-pressure heater 17 and the third high-pressure heater 6, where it is heated by the heat given off by the selected steam. The air compressed in the compressor 20 is supplied to the combustion chamber 21, in which the gaseous fuel is burned. From the combustion chamber 21, the combustion products enter the gas turbine 22, which drives the compressor 20 and the first electric generator of the steam-gas unit 23. Exhaust gases from the gas turbine 22 enter the waste heat boiler 24. Here they give up their heat to superheat the steam in a high-pressure superheater 25, for boiling boiler water in a high pressure evaporator 26, for superheating steam in a medium pressure superheater 29, for boiling boiler water in a medium pressure evaporator 31, for superheating steam in a low pressure superheater 33, for heating feed water in a high pressure economizer 34, for heating feed water in a medium-pressure economizer 35, for boiling boiler water in a low-pressure evaporator 36, for heating the main condensate stream of a steam-gas unit in a gas heater 37. From a waste heat boiler 24, combustion products are sent to the atmosphere. The main condensate flow of the steam-gas unit from the condenser of the steam-gas unit 42 is mixed with condensate from the steam-turbine unit and enters the inlet of the condensate pump of the steam-gas unit 19. Further, the main condensate flow of the steam-gas unit is sent by the condensate pump of the steam-gas unit 19 to the gas condensate heater 37, where it is heated by the heat of the outgoing gases. From the gas condensate heater 37, the main condensate stream of the steam-gas unit is fed to the low-pressure drum of the steam-gas unit 38, which is built on with a deaeration head, where it is purified from oxygen and other non-condensable gases and mixed with its boiler water. From the low-pressure drum of the steam-gas unit 38, part of the boiler water is directed to the low-pressure evaporator 36, where boiling occurs due to the heat of the combustion products. From the low-pressure evaporator 36 dry saturated steam is fed into the steam space of the low-pressure drum of the steam-gas unit 38. The other part of the boiler water from the low-pressure drum of the steam-gas unit 38 is fed by medium 39 and high 40 pressure feed pumps to the economizers of medium 35 and high 34 pressures, respectively. Part of the dry saturated steam from the low pressure drum of the steam-gas unit 38 is fed to the low pressure superheater 33, where it is superheated due to the heat of the combustion products. Another part of the dry saturated steam from the low-pressure drum of the steam-gas unit 38 is fed to the fourth low-pressure preheater 9, where it is condensed and sent to the third low-pressure preheater 12. From the low-pressure superheater 33, the superheated steam is directed to the medium-pressure cylinder of the steam-gas unit 32, which is the drive for the second electric generator of the steam-gas block 28, where it is mixed with the partially spent stream of the main steam of the steam-gas block. From the medium pressure economizer 35, feed water is supplied to the medium pressure drum of the steam-gas unit 18, where it is mixed with its boiler water. From the medium-pressure drum of the steam-gas unit 18, boiler water is directed to the medium-pressure evaporator 31, where boiling occurs due to the heat of the combustion products. From the medium pressure evaporator 31, dry saturated steam is fed into the steam space of the medium pressure drum of the steam-gas block 18. Part of the dry saturated steam from the medium-pressure drum of the steam-gas block 18, after mixing with the main steam flow from the high-pressure cylinder of the steam-gas block 27, is fed to the medium pressure superheater 29, where it overheats due to the heat of combustion products. Another part of the dry saturated steam from the medium-pressure drum of the steam-gas unit 18 is fed to the second high-pressure heater 17, where it is mixed with the steam flow formed during the boiling-up of condensate from the third high-pressure heater 6, condensed and sent to the first high-pressure heater 7. From the high-pressure economizer pressure 34, feed water is fed into the high-pressure drum of the steam-gas unit 30, where it is mixed with its boiler water. From the high-pressure drum of the steam-gas unit 30, the boiler water is directed to the high-pressure evaporator 26, where boiling occurs due to the heat of the combustion products. From the high-pressure evaporator 26 dry saturated steam is supplied to the steam space of the high-pressure drum of the steam-gas unit 30. From the high-pressure drum of the steam-gas unit 30 dry saturated steam is directed to the high-pressure steam superheater 25, where it is superheated due to the heat of combustion products. From the high-pressure steam superheater 25, the superheated steam is supplied to the high-pressure cylinder of the steam-gas block 27, which is the drive for the second electric generator of the steam-gas block 28. From the high-pressure cylinder of the steam-gas block 27, the flow of the main steam of the steam-gas block is directed to the medium-pressure superheater 29, where part steam from the medium pressure drum of the steam-gas unit 18, and is superheated due to the heat of combustion products. From the medium-pressure steam superheater 29, the superheated steam is fed to the inlet of the medium-pressure cylinder of the steam-gas block 32, which drives the second electric generator of the steam-gas block 28. From the medium-pressure cylinder of the steam-gas block 32, the flow of the main steam of the steam-gas block is directed to the low-pressure cylinder of the steam-gas block 41, which is drive for the second electric generator of the steam-gas block 28. From the low-pressure cylinder of the steam-gas block 41, the main steam flow of the steam-gas block is fed to the condenser of the steam-gas block 42, where it condenses, giving its heat to the cooling water.

Thus, the invention will improve the thermodynamic efficiency and reliability of electricity generation at a thermal power plant by displacing the flow of high-temperature superheated steam going to the fourth low-pressure heater with dry saturated steam of the corresponding pressure from the low-pressure drum of the steam-gas unit.

Claims (1)

Thermal power plant containing a steam turbine unit, consisting of a steam boiler connected through a superheater with a high pressure cylinder of a steam turbine unit, which is mechanically connected to a low pressure cylinder of a steam turbine unit, a high pressure cylinder of a steam turbine unit is connected, in turn, with an intermediate superheater, with a third and the first high-pressure heaters and a deaerator on the hot side through extractions, as well as with the low-pressure cylinder of the steam turbine unit, which drives the electric generator of the steam turbine unit, the intermediate superheater is connected to the high-pressure cylinder of the steam turbine unit, the low-pressure cylinder of the steam turbine unit is connected to the first, second and the third low pressure heaters on the hot side through the extractions and the condenser of the steam turbine unit, the condenser of the steam turbine unit is connected to the condensate pump of the steam turbine unit, the condensate pump of the steam turbine unit is connected to the first low pressure heater on the cold side and the condensate pump of the steam-gas unit, the first, second, third and fourth low pressure heaters are connected in series with each other on the cold side, the fourth low pressure heater on the cold side is connected to the deaerator, the deaerator is connected through the feed pump of the steam turbine unit with the first high pressure heater on the cold side, the first high pressure heater on the hot side is connected to the deaerator, and on the cold side - to the second high pressure heater, the second high pressure heater on the hot side is connected to the first high pressure heater and the medium pressure drum of the steam-gas unit, and on the cold side - with the third high-pressure heater, the third high-pressure heater on the hot side is connected to the second high-pressure heater, and on the cold side - with the steam boiler, while the fourth low-pressure heater on the hot side rone is also connected to a low-pressure drum of a combined-cycle gas unit, which consists of a compressor connected through a combustion chamber with a gas turbine, which drives the first electric generator of the combined-cycle gas unit, the gas turbine is connected to a waste heat boiler, which, in turn, consists of a high-pressure superheater connected on the hot side to the high pressure evaporator, and on the cold side to the high pressure cylinder of the steam-gas block, which is mechanically connected to the medium-pressure cylinder of the steam-gas block, the high-pressure evaporator on the hot side is connected to the medium-pressure superheater, and on the cold side - to the high-pressure drum pressure of the steam-gas block, the medium-pressure superheater on the hot side is connected with the medium-pressure evaporator, and on the cold side - with the medium-pressure cylinder of the steam-gas block, which is mechanically connected to the low-pressure cylinder of the steam-gas block, the medium-pressure evaporator is connected on the hot side n with a low-pressure superheater, and on the cold side - with a medium-pressure drum of a steam-gas block, a low-pressure superheater on the hot side is connected to a high-pressure economizer, and on a cold side - to a medium-pressure cylinder of a steam-gas block, a high-pressure economizer on the hot side is connected to an average economizer pressure, and on the cold side - with the high-pressure drum of the steam-gas unit, the medium-pressure economizer on the hot side is connected to the low-pressure evaporator, and on the cold side - to the medium-pressure drum of the steam-gas unit, the low-pressure evaporator on the hot side is connected to the gas condensate heater, and cold - with a low-pressure drum of the steam-gas unit, the gas condensate heater is connected to the atmosphere on the hot side, and on the cold side - to the low-pressure drum of the steam-gas unit, the low-pressure drum of the steam-gas unit is connected in the water space to the low-pressure evaporator and through the feed medium and high pressure pumps of the steam-gas block with medium and high pressure economizers, respectively, and in the steam space - with a low-pressure superheater, the medium-pressure drum of the steam-gas block is connected through the water space with the medium-pressure evaporator, and through the steam space - with the medium-pressure superheater and the second high-pressure heater, high-pressure drum of the steam-gas block is connected to the high-pressure evaporator in the water space, and to the high-pressure superheater through the steam space, the high-pressure cylinder of the steam-gas block is connected to the medium-pressure superheater, the medium-pressure cylinder of the steam-gas block is connected to the low-pressure cylinder of the steam-gas block , the low-pressure cylinder of the steam-gas block, which is the drive for the second electric generator of the steam-gas block, is connected to the condenser of the steam-gas block, the condenser of the steam-gas block is connected to the condensate pump of the steam-gas block, the condensate pump of the steam-gas unit is connected to the gas condensate heater.

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