SU857518A1 - Steam turbine condensation plant - Google Patents

Description

(54) CONDENSATION STEAM TURBINE INSTALLATION

I

The invention relates to a power system and can be used to remove water and gases from vessels operating under vacuum and in steam turbine regeneration systems, the condensing units of which have vapor-air suction systems.

A steam turbine condensing unit is known, comprising a condenser connected by a condensate line through a condensate pump to a turbine regeneration system and a non-condensate withdrawal pipe. combustible gases - with steam jet or water jet ejectors 1.

Such installations have low efficiency, time-consuming and difficult to install.

Also known is the condensation installation of a steam turbine containing a condenser connected by a condensate line through a condensate pump to a regeneration system and a non-condensable gas exhaust line to a water ring vacuum pump that is connected through water 20 to a closed loop with a heat exchanger and a separator connected to the system by condensate regeneration.

In this scheme, the non-condensable gases from the condenser come through the drain line to the suction of the first stage of the vacuum pump, which is cooled by the condensate coming from the heat exchanger. This condensate is the working fluid of the water ring of an isothermal compressor and, together with the compressed gases, is supplied to the second stage of the vacuum pump with a lower volumetric capacity, because the water vapor condenses and the gases are compressed in the first stage of the pump. From the second stage pump, non-condensable gases and condensate under pressure slightly above atmospheric are fed to a separator, where the condensate is separated from the gases. The latter are emitted to the atmosphere, and the condensate is led to a heat exchanger for cooling. The excess condensate, due to the condensation of steam, is transferred from the separator to the regeneration system of the steam turbine 2.

The disadvantage of this setup is the energy loss during the circulation of the working fluid from the atmospheric separator at the suction of the first stage of the vacuum pump, where

The pressure is the lowest in the entire condensing unit.

The purpose of the invention is to increase efficiency and reduce metal consumption.

To achieve this goal, a closed loop at the inlet to the heat exchanger is connected to the condensate line by means of a condensate pump.

The drawing shows a diagram of the condensing unit of a steam turbine with a closed loop for removing non-condensable gases.

The condensing unit comprises a condenser 1 of a steam turbine 2 with a condensate pump 3 of the regeneration system 4 and a two-stage water ring vacuum pump 5 connected to the condenser 1 by a pipe b of non-condensing gases. Separator 7, heat exchanger 8 and vacuum pump 5 are included in closed circuit but with water. The overflow line 9 of the separator 7 is connected to the low point tank 10 connected to the drainage pump 11 of the regeneration system 4, and the pipe 12 connects the condenser 1 to the vacuum pump 5. The pipe 12 is connected to the condensate drain 13 of the regeneration system before the condensate pump.

The device works as follows.

The main condensate from condenser 1 through the heat exchanger 8 with minimum hydraulic resistance and cooled by part of the condenser cooling water flows by gravity to the first stage of the water ring vacuum pump 5, which is installed below the condensate level in the condenser 1, and the non-condensable gases also go to the first stage of the vacuum pump 5 the pipeline 6. The main condensate from the separator 7 is poured into the tank 10 low points, from which the drainage pump 11 is pumped into the vapor space of the heater Low pressure of regeneration system 4 for deaeration. From the latter, this main condensate, together with the condensate of the heating steam drain

pump is supplied to the condensate line 13 of the regeneration system 4.

The condensation unit of the steam turbine in the proposed embodiment will allow using the main turbine condensate as a working fluid of a two-stage water ring vacuum pump and shutting down condensate pumps when the condensate flow rate is lower than the maximum flow rate of the working fluid, for example, when it is idling or with a load of own needs. In heat-generating turbine plants operating in the heating season with minimal steam consumption to the condenser, the proposed scheme will provide the greatest efficiency.

Combining the functions of vacuum and condensate pumps allows reducing the metal consumption and simplifying the layout of the power equipment of the power plant.

Claims (2)

1.Kertseli LI and Ryzhkin V. Ya. Thermal power plants. M., Gosenergoizdat, 1956, FIG. 16-9 annex. 2. Gunner Thorn’s report from Nash Engineering Company. State Committee on Science and Technology. 1974, fig. 2