SU761737A1 - System for condensing steam and desalinating water of heat electric power station - Google Patents

Description

The invention relates to the field of power engineering and can be used in the design of steam condensation systems and desalination of water in power plants, mainly with heat-generating 5 steam turbines.

A known system of steam condensation and desalination in power plants, which contains a turbine condenser with auxiliary equipment and a water-cooling circuit with a series-connected water heater [1]. A turbine condenser is used as a preheater. In the evaporator use steam from the selection of the lowest pressure. 15 At the same time, the secondary steam (vapor) is condensed in the turbine condenser.

The disadvantage of the system is low productivity during the period of full cogeneration load of the turbine, when the demand for desalinated water is greatest.

The closest to the proposed system to the technical essence and the achieved result is the system of steam condensation and desalination of a thermal power plant, containing condensers of at least two turbines with exhaust pipes and connected at the entrance to ₃₀ each with one of the vacuum condensers

2

evaporator with nozzles for withdrawing vapor and non-evaporated water [2].

The disadvantages of this system are low productivity and high capital costs.

The purpose of the invention is to increase system performance and reduce capital costs.

This is achieved by the fact that the system is equipped with a tube bundle embedded in the exhaust pipe of the turbine, the condenser of which is connected to the evaporator, and connected through the water between this condenser and the evaporator, and the pipe of discharge of the vapor of the latter is connected to the condenser of another turbine.

The drawing shows a system of steam condensation and desalination.

The system includes condensers 1 and 2, respectively, turbines 3 and 4. Pipeline 5 is designed to supply cooling water to condenser 1, pipe 6 - to drain from the last heated water. The pipe 6 is connected to the inlet of the tube bundle 7 integrated in the turbine exhaust nozzle 7. The vacuum evaporator 8 is connected to the output nozzle of the bundle 7 by a pressure conduit

9. The evaporator 8 is connected by a steam pipe 10 of the steam to the steam space con <761737

The capacitor 2, and the conduit 11 with the pump 12 included in it, is connected to the pipeline 5 for supplying cooling water to the condenser 1. The pipeline 13 is used to drain water from the condenser 1.

The system works as follows.

The cooling water through the pipeline 5 is supplied to the condenser 1, where it is heated due to the condensation of the steam that has worked in the turbine 3. Part of this water is discharged through line 13 from the system, and part of it through line 6 is fed to tube bundle 7, which is further heated and fed via line 9 to evaporator 8. In the latter, as a result of pressure reduction, steam is released, which goes through steam line 10 to the condenser 2 of the turbine 4, where it condenses and mixes with the condensate of the exhaust steam therein. Cooled in the evaporator 8 water pump 12 through the conduit 11 is fed into the pipe 5 supply of cooling water to the condenser 1.

Changing the amount of produced desalinated water can be made by changing the amount of cooled cooling water through condenser 1, tube bundle 7 and pump 12, as well as changing the amount of steam admission to condensers 1 and 2.

Using the proposed system

will reduce capital in the system of steam condensation and desalination, as well as improve its performance and efficiency.

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Claims (1)

Claim A steam condensation and desalination system of a thermal power plant, mainly heat and heat, containing condensers of at least two turbines with exhaust pipes and a vacuum evaporator with water vapor evaporator and non-evaporated water at the water inlet to one of the condensers. in order to increase productivity and reduce capital costs, the system is equipped with a tube bundle embedded in the exhaust 20 of the turbine, the condenser of which is connected to the evaporator, and connected de between the condenser and the evaporator, and the vapor discharge pipe is connected to the last capacitor the other 25 turbines.