RU72725U1 - ELECTRIC STATION - Google Patents

Abstract

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

The technical task is to increase the environmental performance and efficiency of the power plant and its reliability.

The power plant includes a steam superheater, a steam turbine, a pump, a deaeration stop, a pump, a boiler, a common condensate pipe connecting a steam turbine and a deaeration plant, a water supply cycle with a cooling tower, an oil cooler and a reverse cycle pump connected to the steam a machine that is connected to a pipeline forming a closed loop and a common condensate line.

Description

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

A known method of converting thermal energy into mechanical work using a steam engine. A method of converting thermal energy into mechanical work involves vaporizing a working fluid in a steam generator, expanding it in a steam engine to do work, condensing the exhaust steam in a condenser, using a mixture of saturated fluorocarbons mixed with unsaturated fluorocarbons as the working fluid in this thermodynamic cycle, but with limiting the temperature of the onset of pyrolysis, which should be higher than the temperature of the steam in the steam generator, and limiting the condensation temperature, which should be higher than eratury vapor in the condenser at an appropriate negative pressure (RF Patent №2291307).

The disadvantage of the described method is the complexity of the system and the complexity of its operation.

The closest analogue to the proposed utility model is a power plant, including a deaeration unit connected in series with a pipeline to form a closed cycle, a boiler, a superheater installation, a pump, a steam turbine and a pump, a common condensate line connecting the deaeration unit and a steam turbine, a water supply reverse circuit connecting the cooling tower and oil cooler and having an electrically driven reverse cycle pump,

oil supply and discharge pipelines connecting the oil cooler and the steam turbine (drawing M 3229803 of OJSC Magnitogorsk Gipromez).

The disadvantages of this power plant are the high cost of electricity generated due to the high energy consumption for own needs and the irrational use of steam from the selection of a steam turbine for deaeration, due to intermittent water withdrawal by consumers and low reliability.

The technical problem solved by the utility model is to increase the environmental performance, efficiency and reliability of the power plant.

The stated technical problem is solved in that in a power plant including a steam superheater, a steam turbine, a pump, a deaeration plant, a pump, a boiler, a common condensate pipe connecting a deaeration plant and a steam turbine, a reverse water supply cycle connecting a cooling tower in a power plant including a loop connected in series with a pipeline and the oil cooler and the reverse cycle pump, oil supply and exhaust pipelines connecting the oil cooler and the steam turbine, in contrast to the nearest In this case, the reverse cycle pump is connected to a steam engine, which is connected to a pipeline forming a closed cycle and to a common condensate line.

The essence of the utility model is illustrated in the drawing, which presents a schematic diagram of the proposed power plant.

The power plant (power plant) includes a superheater installation 1 connected by a pipeline 2 to a steam turbine 3, which is connected to a deaeration plant 4, which is connected to a pump 5. The pump 5 is connected by a pipeline

with the boiler 6, which is connected to the superheater unit 1. Thus, the plants 1, 3, 4, 5, 6 are interconnected by a pipe 2 and form a closed cycle. The power plant is equipped with a common condensate line 7, with a pump connecting the deaeration unit 4 to the steam turbine 3, in addition, it has a reverse cycle 8, containing a cooling tower 9 connected in series, an oil cooler 10 and a reverse cycle pump 11. The pump 11 of the reverse cycle 8 is equipped with a steam engine 12, which is connected to the pipeline 2, forming a closed loop and with a common condensate conduit 7. The oil cooler 10 is connected by pipelines for supplying and discharging oil 13 with a steam turbine 3. The steam passing into the condensate is fed into the deaeration plant 4 for the production of feed water.

The proposed power plant operates as follows. The steam after the superheater installation 1 enters through a pipeline 2 to a steam turbine 3, in which, after completing work, it is divided into condensate, which, after completing work, is divided into condensate, which enters a separate condensate line 7 and steam. Steam from the pipeline 2 is supplied to the inlet valve of the steam engine 12, which is the actuator for the pump 11 of the reverse cycle 8, and to the deaeration plant 4, to prepare the feed water of the boiler 6. The condensate obtained after the steam engine 12 is supplied to the common condensate pipe 7 after the steam turbine 3 and enters the deaeration plant 4.

The proposed power plant will allow for the continuous rational use of steam, which was previously released into the atmosphere, to improve the environmental performance, efficiency and reliability of the power plant.

The power plant of the proposed design operates at OJSC MMK.

Claims (1)

An electrical station, including a steam superheater, a steam turbine, a pump, a deaeration unit, a pump, a boiler, a common condensate line connecting a deaeration unit and a steam turbine, a water supply cycle connecting a cooling tower and an oil cooler and a reverse cycle pump, pipelines supply and discharge of oil connecting the oil cooler and a steam turbine, characterized in that the circulation pump is connected to the steam engine, This is connected to a pipeline forming a closed cycle and a common condensate line.