RU2607439C1 - Vacuum deaeration plant for make-up feed water of thermal power plant - Google Patents

Abstract

FIELD: energy.

SUBSTANCE: invention relates to heat engineering. Vacuum deaeration plant for make-up feed water of a thermal power plant comprises a vacuum deaerator with a deaerated make-up feed water pipeline, connected to a main condensate pipeline of a turbine, with pipelines for initial water and heating agent, in which initial water heaters are connected and a heating agent with pipelines for heating medium, vented steam pipeline.

EFFECT: higher efficiency of vacuum deaeration plant for make-up feed water of thermal power plant and lower electric power expenditure on auxiliaries by providing technologically required temperature mode of deaeration owing to use as heating medium for heaters of vacuum deaeration plant cheap heat carrier with parameters sufficient for deaeration.

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 vacuum deaeration plant for additional feedwater of a thermal power station, containing a vacuum deaerator with pipelines of the source water and a heating agent, which include heaters of the source water and heating agent with pipelines of the heating medium, a vapor pipe, a pipeline of deaerated additional feed water connected to the pipeline main condensate of the turbine. The source water heater is connected to the steam lines of the lower and upper heating taps, and a low pressure heater is used as a heater heating agent. The pipeline of deaerated feed water is connected to the pipeline of the main condensate of the turbine after the low-pressure heater (V.I. Sharapov. Industrial energy. M: Energoatomizdat, 1988, Fig. 1 on p. 36). This analogue is adopted as a prototype.

The disadvantage of the analogue and the prototype is reduced efficiency due to the need for large additional costs of electric energy to drive the high-pressure condensate pump of the turbine when the heating agent is supplied to the vacuum deaerator from the pipeline of the main condensate of the turbine and the cost of a couple of turbine withdrawals to heat the heating agent and source water.

The technical result achieved by the present invention is to increase the efficiency of the vacuum deaeration installation of additional feed water of a thermal power station and reduce the cost of electric energy for own needs by providing the technologically necessary temperature regime of deaeration due to the use of an inexpensive heat transfer medium with a vacuum deaeration unit as a heating medium with parameters sufficient for deaeration.

To achieve this result, a vacuum deaeration installation of additional feed water of a thermal power plant is proposed, containing a vacuum deaerator with a pipeline of deaerated additional feed water connected to the pipeline of the main condensate of the turbine, with pipelines of the source water and a heating agent, which include heaters of the source water and a heating agent with by heating medium pipelines, by evaporation pipeline.

The peculiarity lies in the fact that the heating medium pipeline of the heating agent of the vacuum deaerator heating agent is connected to the steam discharge pipes from the turbine seals and the turbine control valve rods, the heating agent heater condensate line is connected to the heating medium heating pipe of the source water heater, and the condensate discharge pipe from the source water heater is connected to the main condensate pipeline between the turbine condenser and the first low-pressure heater along the condensate.

The proposed solution allows to increase the efficiency of the vacuum deaeration plant of the auxiliary feed water of the thermal power plant by increasing the efficiency of the vacuum deaeration plant of the auxiliary feed water of the thermal power plant and reduce the cost of electric energy for own needs by providing the technologically necessary temperature regime of deaeration due to the use as a heating medium for heaters of vacuum deaeration plant under ogogo coolant with sufficient deaeration parameters.

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

The vacuum deaeration unit of the auxiliary feed water of the thermal power station (see drawing) contains a vacuum deaerator 1 with pipelines 2 of the source water and 3 heating agent, which includes heaters 4 of the source water and 5 heating agent, as well as with the pipeline 6 vapor. The pipeline 7 of the deaerated auxiliary feed water is connected to the pipeline 8 of the main condensate of the turbine 9. The pipeline 10 of the heating medium of the heater 5 of the heating agent of the vacuum deaerator 1 is connected to the pipes 11 of the steam outlet from the seals 12 of the turbine 9 and the rods 13 of the control valves 14 of the turbine 9. Condenser line 15 of the heater 5 the heating agent is connected to the pipeline 16 of the heating medium of the source water heater 4, and the condensate discharge pipe 17 from the source water heater is connected to the main conduit 8 nsata 18 between the condenser 9 and the first turbine downstream of the condensate preheater low pressure.

Consider an example of the implementation of the claimed vacuum deaeration installation of auxiliary feed water of a thermal power plant.

The auxiliary feed water is deaerated in the vacuum deaerator 1 and pumped through the pipeline 7 of the deaerated auxiliary feed water to the main condensate pipe 8 of the turbine 9, for example, behind the first regenerative low-pressure heater along the main condensate. As the heating medium for the heating agent heater 5, steam is used from the seals 12 of the turbine 9 and the rods 13 of the control valves 14 of the turbine 9. The condensation of the heating agent heater 5 is supplied through the condensate line 15 of the heating agent heater 5 and the heating medium pipe 16 of the source water heater to the source heater 4 water, after which condensate flows through the condensate discharge pipe 17 from the source water heater to the main condensate pipe 8 between the condenser 18 and the first downstream heater of pressure.

Thus, the proposed solution allows to increase the efficiency of the vacuum deaeration installation of additional feed water of the thermal power station and reduce the cost of electric energy for own needs by providing the technologically necessary temperature regime of deaeration due to the use of an inexpensive heat transfer medium with sufficient heat for the heaters for the vacuum deaeration installation deaeration parameters.

Claims (1)

Vacuum deaeration installation of auxiliary feed water of a thermal power plant, containing a vacuum deaerator with a pipeline of deaerated auxiliary feed water connected to the pipeline of the main condensate of the turbine, with pipelines of the source water and heating agent, which include heaters of the source water and heating agent with pipelines of the heating medium, the pipeline evaporation, characterized in that the pipeline heating medium of the heater of the heating agent of the vacuum deaerator is connected to the pipeline For steam removal from the turbine seals and turbine control valve rods, the heating agent heater condensate pipe is connected to the heating medium pipe of the source water heater, and the condensate drain pipe from the source water heater is connected to the main condensate pipe between the turbine condenser and the first low pressure heater along the condensate.

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