RU2334882C1 - Method of operating thermal electrical power station - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: invention to power production and can be used at the thermal electrical power stations. Steam generated in the boiler is fed into the steam turbine. Admixtures accumulated in the said boiler are discharged there from along with bleed water used as a heating medium in the water-to-water heat exchanger. Feedwater supplied into the boiler is heated by the turbine bleed steam in the regenerative heat exchangers. A heating medium of the heat exchanger connected to bleed water pipeline represents a condensate of the high-pressure regenerative heat exchanger, the final one along the feedwater flow. The said condensate heated in the water-to-water heat exchanger is pumped over into the feedwater line ahead of the boiler.

EFFECT: higher efficiency.

1 dwg

Description

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

A known method of operation of a thermal power plant, in which the steam generated in a steam boiler is supplied to a steam turbine, impurities accumulated in the boiler water is removed from the boiler with purge water, which is used as a heating medium in a water-water heat exchanger, the feed water supplied to the boiler is heated by steam turbine extraction in regenerative heaters, characterized in that as the heated medium of the heat exchanger connected to the purge water pipeline, condensate of the latter is used along the feed heated water of the regenerative high-pressure heater, and after heating this condensate in a water-water heat exchanger, it is pumped into the feed water pipe in front of the boiler (see patent No. 2227828 “Method of operation of a thermal power plant”, IPC ⁷ F01K 13/00, B .I. 2004. No. 12).

The disadvantages of this method are the reduced ecology and the efficiency of the thermal power plant due to the underutilization of the mass and high potential heat of the purge water, the need to use special equipment for its disposal - continuous purge separators and heat exchangers, coolers and pollution of surface water bodies with mineralized effluents.

The technical result achieved by the present invention is to improve the ecology and efficiency of a thermal power plant by utilizing a high potential to reduce the heat of purge water, without the use of continuous purge separators.

To achieve this result, a method is proposed for operating a thermal power plant, in which steam generated in a steam boiler is fed to a steam turbine, impurities accumulated in the boiler water are removed from the boiler with purge water, which is used as a heating medium in a water-water heat exchanger supplied to the boiler feed water is heated by steam turbine offsets in regenerative heaters.

The difference of the proposed method is that as the heated medium of the heat exchanger connected to the purge water pipe, the condensate of the last regenerative high-pressure heater along the feed water is used, and after heating this condensate in the water-water heat exchanger, it is connected by means of a pump to the feed water pipe in front of the boiler .

A new set of features of the method allows you to achieve the desired technical result due to the maximum possible use of the high potential of the heat of the purge water and reduce due to this fuel consumption at the thermal power station, as well as by eliminating purge water from the separator circuit and connecting a regenerative heater to heat the condensate of the latter along the way feed water of the regenerative high-pressure heater by a sufficiently large amount, since the purge costs water and condensate are comparable in magnitude. Since the consumption of condensate is many times less than the consumption of feed water, the capital costs for installing a water-to-water heat exchanger are significantly reduced compared to the prototype and the scope of application of the claimed solution expands.

Information confirming the possibility of carrying out the invention with obtaining the above technical result are as follows.

The drawing shows a diagram of a thermal power plant in which the proposed method is implemented.

The thermal power station contains a steam turbine (1) connected by a steam line (2) of sharp steam to a steam stake (3), to which a purge water pipe (4) and feed water pipe (5) are connected. The feed water pipe (5) includes regenerative high pressure heaters (6) connected via a heating medium to the steam extraction of the turbine, and a water / water heat exchanger (7) connected via a heated medium to the condensate pipe of the last regenerative heater along the feed water (6) high pressure, and the pipeline of condensate of this heater heated by purge water after the water-to-water heat exchanger (7) is fed through the pump (8) to the feed water pipe (5) in front of the steam boiler (3).

The method consists of the following operations.

A steam boiler (3) generates steam, which is supplied through a steam line (2) of sharp steam to a steam turbine (1) to generate electricity. Feed water to the steam boiler (3) is fed through the feed water pipe (5) through high pressure regenerative heaters (6). Feed water is heated in regenerative high-pressure heaters (6) by steam extraction of a turbine. Mineral impurities accumulated in the boiler water of the steam boiler (3) are continuously discharged from the drum of the boiler with purge water through the purge water pipe (4), which is sent to the water-water heat exchanger (7), where it is used as a heating medium. In the water-water heat exchanger (7), the condensate of the last high-pressure regenerative heater 6 is heated along the feed water, which is fed into the feed water pipe (5) in front of the steam boiler (3) using a pump (8). New features make it possible to maximize the high potential of the purge water heat, thereby reducing fuel consumption at a thermal power station, while not reducing electricity generation due to regenerative extraction of turbine steam.

Thus, the proposed method of operation of a thermal power plant allows to improve the ecology and economy of its work due to the full use of the high potential of the heat of the purge water and the simplification of the scheme of the thermal power plant due to the exclusion of special equipment of a typical scheme for the utilization of purge water - separators and heat exchangers-coolers.

Claims (1)

The method of operation of a thermal power plant, in which the steam generated in a steam boiler is supplied to a steam turbine, impurities accumulated in the boiler water are discharged from the boiler with purge water, which is used as a heating medium in a water-water heat exchanger, the feed water supplied to the boiler is heated by sampling steam in the turbine in regenerative heaters, characterized in that as a heated medium connected to the purge water pipe of the heat exchanger, condensate of the latter is used along the feed water s of a regenerative high-pressure heater, and after heating this condensate in a water-water heat exchanger, it is pumped into the feed water pipe in front of the boiler.