RU2580768C2 - Method of electric power generation by thermal power station - Google Patents

Abstract

FIELD: power engineering.

SUBSTANCE: invention relates to heat engineering and can be used in thermal power plants. Method involves formation of steam in boiler and steam feeding into cogeneration turbine. Turbine steam is used for heating the main turbine condensate, additional feed water is deaerated in the deaerator by supplying desorbing agent which is removed from the deaerator with emitted gases, while deaerated feed water is fed into turbine condensate pipeline after condenser. Desorbing agent in the deaerator is natural gas supplied to boiler burners.

EFFECT: invention increases efficiency of thermal power plant due to exclusion of steam consumption to deaeration and decreasing the temperature of the main turbine condensate.

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 generating electricity by a thermal power plant, including generating steam in a steam boiler and supplying it to a cogeneration turbine, directing the exhaust steam to the turbines into the turbine condenser, using steam from the turbine offsets to heat the main condensate of the turbine, and using additional feedwater that is sent to the pipeline of the main condensate of the turbine after the condenser, while the additional feed water is deaerated in the deaerator by means of a desorbing agent, which which is then removed together with the evolved gases from the deaerator. Steam is used as a desorbing agent in a deaerator (see Oliker I.I., Permyakov V.A. Thermal deaeration of water at thermal power plants. L .: Energia, 1971, Fig. 3-7 on page 130 and description thereto) . This analogue is adopted as a prototype.

The disadvantage of the analogue and the prototype is the reduced efficiency of the thermal power plant due to the cost of steam for deaeration, as well as due to the increased temperature of the main condensate.

The technical result achieved by the present invention is to increase the efficiency of a thermal power plant by eliminating the cost of steam for deaeration and lowering the temperature of the main condensate of the turbine.

To achieve this result, a method for generating electricity by a thermal power plant is proposed, including generating steam in a steam boiler and supplying it to a cogeneration turbine, directing the spent steam to the turbines in the turbine condenser, using steam from the turbine offsets to heat the main condensate of the turbine, and using additional feed water, which sent to the pipeline of the main condensate of the turbine after the condenser, while the additional feed water is deaerated in the deaerator by a stripping agent, which is then removed from the deaerator together with the evolved gases.

The peculiarity lies in the fact that natural gas is used as a stripping agent in the deaerator, which, together with the gases released during deaeration, is supplied to the burners of the steam boiler.

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 extraction, a main condensate pipe 4 of the cogeneration turbine 2 with regenerative low-pressure heaters 5 included in it. To the deaerator 6 are connected to the pipeline 7 of the source water and the inlet pipe 8 and outlet 9 of the desorbing agent. The nozzles for supplying 7 and removal 8 of the desorbing agent are included in the gas pipe 10 connected to the burners of the boiler 1. The storage tank 11 of the deaerator 6 is connected by a pipe 12 of additional feed water to the pipe 4 of the main condensate of the turbine 2 after the condenser 3.

The method consists of the following operations.

The steam generated in the steam boiler 1 is sent to the cogeneration turbine 2. The main condensate of the turbine 2 is heated in regenerative heaters 5 of low pressure. The source water is supplied through a pipeline 7 to a deaerator 6. The natural gas used as a stripping agent from a gas pipeline 10 is sent to a deaerator 6 through a supply pipe 8. From the deaerator 6, natural gas with evolved corrosive gases is removed from the deaerator through a pipe 9 and through the pipe 10 is fed into the burner of the steam boiler 1. Deaerated water from the deaerator 6 is poured into the storage tank 11 of additional feed water, after which, through the pipe 12, it is supplied to the main condensate pipe 4 of the turbine 2 after condensate a 3. Since the deaeration in the deaerator is carried out by gas at low temperatures (10-30 ° C), mixing of the deaerated additional feed water with the main condensate of the turbine leads to a significant decrease in the temperature of the main condensate after the condenser, an increase in the generation of electricity for heat consumption and, as a result, to increase the efficiency of the method of operation of a thermal power plant.

Thus, the proposed solution improves the efficiency of the thermal power plant by eliminating the cost of steam for deaeration, lowering the temperature of the feedwater and the main condensate of the turbine.

Claims (1)

A method of generating electricity by a thermal power plant, including generating steam in a steam boiler and supplying it to a cogeneration turbine, directing the exhaust steam of the turbine to the turbine condenser, using a pair of turbine offsets to heat the main condensate of the turbine and using additional feedwater that is sent to the main condensate pipeline of the turbine after the condenser, wherein the additional feed water is deaerated in the deaerator by means of a stripping agent, which is then together with the released gases is removed from the deaerator, characterized in that natural gas is used as a desorbing agent in the deaerator, which, together with the gases released during deaeration, is fed to the burners of the steam boiler.

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