RU2580769C2 - Method of make-up feed water heating in thermal power plant - Google Patents

Abstract

FIELD: power engineering.

SUBSTANCE: invention relates to heat engineering and can be used at thermal power plants. Method involves formation of steam in boiler and steam feeding into cogeneration turbine from which extracted steam is directed to regenerative and network heaters, and waste steam turbine is fed into the turbine condenser. Main turbine condensate is supplied from the condenser through the ejector coolers, sealing coolers and low pressure heaters to feed water deaerator, and water and steam losses are compensated by make-up feed water deaerated in the deaerator for make-up feed water. Steam condensate as heating agent is supplied from the ejectors cooler and sealing cooler into the deaerator for make-up feed water.

EFFECT: using the invention allows improving reliability and economy of thermal power station owing to reducing heat losses in the condenser of the turbine.

1 cl, 1 dwg

Description

The invention relates to the field of power engineering and can be used at thermal power plants.

A known analogue is a method of heating additional feed water in a thermal power station, including generating steam in a steam boiler and supplying it to a cogeneration turbine, sending turbine steam to regenerative and network heaters, and spent turbine steam to the turbine condenser, with the main condensate of the turbine from the condenser, they are directed through ejector coolers, seal coolers and low pressure heaters to the feed water deaerator, and the losses of feed water and steam are compensated up to avochnoy feedwater, in the deaerator deaeriruemoy incremental feedwater. Steam condensate from ejector coolers and seal coolers is sent to the turbine condenser (see book by V.Ya. Ryzhkin “Thermal Power Plants”, Moscow: Energia, 1976, Fig. 14-4 on page 211). This analogue is adopted as a prototype.

The disadvantage of the analogue and prototype is the reduced reliability and efficiency of the thermal power plant due to the direction of steam condensate from the ejector coolers and seal coolers into the condenser, which leads to significant heat loss in the turbine condenser.

The technical result achieved by the present invention is to increase the reliability and efficiency of a thermal power plant by eliminating heat loss with condensate from the steam cooler of the main ejectors and the steam cooler of the seal cooler in the turbine condenser.

To achieve this result, a method for heating additional feed water in a thermal power plant is proposed, including generating steam in a steam boiler and supplying it to a cogeneration turbine, sending turbine steam offsets to regenerative and network heaters, and spent turbine steam to the turbine condenser, with the main turbine condensate is sent from the condenser through ejector coolers, seal coolers and low pressure heaters to the feed water deaerator, and the loss of feed water water and steam are compensated by additional feedwater deaerated in the deaerator of the feedwater.

The peculiarity lies in the fact that the steam condensate from the coolers of the ejectors and coolers of the seals is sent to the deaerator of additional feed water as a heating agent.

The proposed solution makes it possible to use the steam condensate of the ejector cooler and seal cooler in the cycle of a thermal power plant and to eliminate the heat loss of this condensate in the turbine condenser.

Next, we consider the information confirming the possibility of carrying out the invention with obtaining the desired technical result.

The drawing shows a schematic diagram of a thermal power plant explaining the method. The station contains a steam boiler 1, a cogeneration turbine 2 with a condenser 3, steam withdrawals, a main condensate pipe 4 of the cogeneration turbine 2 with a cooler 5 for the main ejectors included, a cooler 6 for the turbine seals, regenerative heaters 7 for low pressure and deaerator 8 for feed water. The steam extraction of the cogeneration turbine 2 is connected to regenerative low-pressure heaters 7 and to network heaters 9. A feed water pipe 11, a heating agent pipe 12 and a deaerated feed-water pipe 13 are connected to the deaerator 10 of the additional feed water. A condensate line 14 from the cooler 5 of the main ejectors and a condensate line 15 from the cooler 6 of the turbine seals are connected to the heating agent pipe 12. The pipe 13 of the deaerated additional feed water of the deaerator 10 is connected to the pipe 4 of the main condensate of the heating turbine 2.

The method consists of the following operations.

The steam generated in the steam boiler 1 is sent to the heating turbine 2. The exhaust steam is condensed in the condenser 3, after which the main condensate of the turbine is successively heated in coolers 5 of the main ejectors and 6 turbine seals, regenerative heaters 7 of low pressure and sent to feed water deaerator 8. In network heaters 9, heating steam is used to heat the network water. Losses of water and steam from the feed water cycle are compensated by the additional feed water deaerated in the additional feed water deaerator 10, for which feed water is supplied to the deaerator 10 through a pipe 11. Steam condensate from the cooler 5 of the main ejectors and from the cooler 6 of the turbine seals through the condensate lines 14 and 15, respectively, are sent to the pipe 12 of the heating agent of the deaerator 10. The deaerated water from the deaerator 10 is supplied to the main condensate pipe 4 through the pipe 13 of the deaerated auxiliary feed water fiction turbine 2.

Thus, the beneficial use of the condensate of the main ejectors and cooler as a heating agent in the deaerator of additional feed water provides increased reliability and efficiency of the thermal power plant by eliminating the heat loss of this condensate in the turbine condenser.

Claims (1)

A method of heating additional feed water in a thermal power plant, including generating steam in a steam boiler and supplying it to a cogeneration turbine, sending turbine steam to regenerative and network heaters, and spent turbine steam to the turbine condenser, while the main condensate of the turbine is sent from the condenser through ejector chillers, seal chillers and low pressure heaters to the feed water deaerator, and the losses of feed water and steam compensate for the additional feed water, deaerated in the deaerator of the auxiliary feed water, characterized in that the steam condensate from the coolers of the ejectors and coolers of the seals is sent to the deaerator of the additional feed water as a heating agent.

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