RU2278984C1 - Thermal power station - Google Patents

Abstract

FIELD: heat power engineering.

SUBSTANCE: according to invention, proposed thermal power station contains extraction turbine with steam extractions to first three of which three high-pressure regenerative heaters are connected, and two last four of which four low-pressure regenerative heaters are connected placed in circuit of regenerative heating of main condensate and feed water. Said thermal power station has condenser, upper and lower heating system heaters placed in heating system pipeline and connected by heating medium line, respectively, to sixth and seventh steam extractions, additional feed water vacuum deaerator with influent, deaerated water and heating agent pipelines. Heating agent pipeline of additional feed water vacuum deaerator is connected to steam line of turbine fifth steam extraction.

EFFECT: improved reliability and economy of thermal power station owing to stable provision of vacuum deaerator of additional feed water with low-potential heating agent of technologically required parameters.

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Description

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

Analogs are known - thermal power plants containing a cogeneration turbine with seven steam extraction, the first three of which are connected to three regenerative high pressure heaters, and the last four are connected to four regenerative low pressure heaters included in the regenerative heating circuit of the main condensate and feed water, a condenser , the upper and lower network heaters included in the network water pipeline and connected via a heating medium to the sixth and seventh selections, respectively steam, a vacuum deaerator incremental feedwater source to conduits, deaerated water and the heating agent, which is used as heating steam condensate preheater network (see. Patent №2174183 (RU) IPC ⁷ F 01 K 17/02. Thermal power station / B. I. Sharapov, E.V. Makarova // Bulletin of inventions. 2001, No. 27). This analogue is adopted as a prototype.

The disadvantages of analogues and prototype are the reduced reliability and efficiency of thermal power plants due to the inability to provide technologically necessary temperature of the heating agent for the vacuum deaerator of additional feed water, especially in the warm season, while reducing the heating load of the heating turbines and disconnecting the network heaters.

The technical result achieved by the present invention is to increase the reliability and efficiency of a thermal power plant due to the stable provision of a vacuum potential dehydrator of additional feed water with a low-potential heating agent of technologically necessary parameters.

To achieve this result, a thermal power plant is proposed that contains a cogeneration turbine with seven steam extraction, the first three of which are connected to three regenerative high-pressure heaters, and the last four are connected to four regenerative low-pressure heaters included in the regenerative heating circuit of the main condensate and feed water , a condenser, upper and lower network heaters included in the network water pipe and connected via a heating medium to estomu and seventh steam extraction, vacuum deaerator incremental feedwater source to conduits, deaerated water and the heating agent.

The peculiarity lies in the fact that the pipeline of the heating agent of the vacuum deaerator of additional feedwater is connected to the steam pipe of the fifth turbine steam extraction.

The new interconnection of elements makes it possible to increase the reliability and efficiency of a thermal power plant due to the use of low-potential fifth turbine steam, the parameters of which are sufficient to ensure effective deaeration and are not dependent on the heating load of the turbine unit, as a heating medium for a vacuum deaerator of auxiliary feed water.

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 station. The circuit includes a steam boiler 1, a heating turbine 2 with seven steam withdrawals 3-9, a condenser 10 connected to the condenser 10, the main condensate pipe of the turbine 11 with a condensate pump 12 included in it, regenerative heaters of low pressure 13, lower and upper network heaters 14 and 15, included in the network pipe 16 and connected to the seventh 9 and sixth 8 of the turbine sampling, a vacuum deaerator of additional feed water 17 with a heating agent pipe 18 connected to the fifth sampling of steam 7.

Thermal power station operates as follows.

The steam generated in the steam boiler 1 is sent to the turbine 2 and condensed in the condenser 10, the main condensate of the turbine is pumped by the condensate pump 12 sequentially through the regenerative low pressure heaters 13 and then to the high pressure deaerator, after which the deaerated water is supplied by the feed pump through the high pressure regenerative heaters to steam boiler 1. Loss of steam and condensate from the plant cycle is compensated by additional feed water, which is deaerated in a vacuum deaerator 17. In a vacuum ny deaerator 17 through conduit 18, heating agent is fed from the steam turbine 7 of the fifth selection.

Thus, the proposed solution allows us to ensure the normative quality of the additional feed water after the vacuum deaerator throughout the year due to the use of low-grade heat of the fifth turbine extraction as a heating medium for vacuum deaeration, i.e. increase the reliability and efficiency of the power plant. The station’s efficiency is also increased by increasing the generation of electricity from heat consumption due to the additional consumption of low-grade steam from the fifth turbine selection.

Claims (1)

A thermal power station containing a cogeneration turbine with seven steam extraction, the first three of which are connected to three regenerative high-pressure heaters, and the last four are connected to four regenerative low-pressure heaters included in the regenerative heating circuit of the main condensate and feed water, a condenser, a top and lower network heaters included in the network water pipeline and connected via a heating medium to the sixth and seventh steam takeoffs respectively, vacuum added aerator feedwater source to conduits, deaerated water and the heating agent, characterized in that the heating agent conduit of the vacuum deaerator additional feedwater is connected to the steam line of the fifth selection steam turbine.