RU2312226C1 - Thermal power station - Google Patents

Abstract

FIELD: heat power engineering; thermal power stations.

SUBSTANCE: invention is designed for use of heat of bleed water in thermal power stations. Proposed thermal power station has steam turbine connected by live steam line with steam boiler to which bleed and feed water pipelines are connected, and high-pressure regenerative heaters placed in feed water pipeline and connected to steam turbine steam extractions by heating medium lines. Water-to-water heat exchanger connected to bleed water pipeline is connected by heated medium line to condensate line of regenerative high-pressure heater last in direction of feed water flow, and pipeline of condensate of said heater heated by bleed water is connected after water-to-water heat exchanger through pump to feed water pipeline between first and second stages of economizer.

EFFECT: increased economy owing to reduction of capital outlays and enlarged sphere of application of invention.

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Description

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

A well-known analogue is a thermal power station containing a steam turbine connected by a sharp steam pipeline to a steam boiler, to which a purge water pipeline and a feedwater pipe are connected, regenerative high-pressure heaters included in the feedwater pipe, connected through a heating medium to the turbine steam extraction. A water-water heat exchanger connected through a heating medium to the purge water pipeline is included in the feed water pipe between the regenerative heaters and the steam boiler (see Patent No. 2227829 “Thermal Power Station”, IPC ⁷ F01K 17/02, B.I. 2004, No. 12).

The described analogue is adopted as a prototype.

A disadvantage of the analogue is reduced efficiency due to the large capital costs of installing a large-sized water-to-water heat exchanger for using a relatively small amount of purge water and heating a large amount of feed water. Due to these disadvantages, the scope of the prototype is limited.

The technical result achieved by the present invention is to increase efficiency by reducing capital costs and increasing the efficiency of using the heat of purge water, expanding the scope of the invention.

To achieve this technical result, a thermal power plant is proposed comprising a steam turbine connected by a steam line to a steam boiler, to which purge and feed water pipelines are connected, regenerative high-pressure heaters included in the feed water pipe, connected through a heating medium to the turbine steam extraction, a water-to-water heat exchanger connected to the purge water pipeline.

A feature of the claimed station is that a water-to-water heat exchanger connected to the purge water pipeline is included in the condensate line of the last regenerative high-pressure heater along the feed water, and the pipeline of the condenser heated by purge water after the water-water heat exchanger is connected through the pump to the pipeline feed water between the first and second stages of the boiler economizer.

A new set of station features allows you to achieve the desired technical result due to the maximum possible use of the high potential of the purge water heat for heating the condensate of the last regenerative high-pressure heater along the feed water by a sufficiently large amount, since the purge water and condensate flows 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 thermal power plant contains a steam turbine 1 connected by a steam pipe 2 of sharp steam to a steam stake 3, to which a purge water pipe 4 and a feed water pipe 5 are connected, regenerative heaters 6 of the high pressure 6 included in the pipe 5 of the feed water, which are connected to the taps via a heating medium steam of the turbine, and a water-water heat exchanger 7, connected via a heated medium to the condensate line of the last regenerative high-pressure heater along the feed water, and the pipeline d of condensate of this heater heated by purge water after a water-to-water heat exchanger is connected through pump 8 to a feed water pipe 5 between the first 9 and second 10 stages of the economizer.

Thermal power station operates as follows. The steam boiler 3 generates steam, which through the steam pipe 2 of sharp steam enters the steam turbine 1. Feed water to the boiler 3 is fed through the feed water pipe 5 through high pressure regenerative heaters 6. The feed water in the regenerative heaters 6 high pressure is carried out by steam extraction of the turbine. Mineral impurities accumulated in the boiler water of the steam boiler 3 are continuously discharged from the boiler drum through a pipe 4 with purge water, which is sent to the water-water heat exchanger 7, where it is used as a heating medium. In the heat exchanger 7, the condensate of the last regenerative high pressure heater along the feed water is heated, which, using the pump 8, is fed into the feed water pipe 5 between the first 9 and second 10 stages of the economizer. New features make it possible to use the high potential of the purge water heat to heat one of the feed water flows of the condensate of the last high-pressure heater by a sufficiently large amount with minimal capital costs.

Claims (1)

A thermal power plant comprising a steam turbine connected by a steam pipe to a steam boiler, to which purge and feed water pipes are connected, regenerative high pressure heaters connected to the feed water pipe, connected through a heating medium to turbine steam take-offs, connected to a purge water pipe - a water heat exchanger, characterized in that the water-water heat exchanger connected to the purge water pipeline is included in the condensate through the heated medium the wire of the last regenerative high-pressure heater along the feed water, and the pipeline of condensate of this heater heated by purge water after the water-to-water heat exchanger is connected through the pump to the feed water pipe between the first and second stages of the boiler economizer.