SU853336A1 - Steam turbine plant steam-air mixture suction system - Google Patents

Description

one

This invention relates to steam turbine condensation plants, in particular, to steam / air mixture systems for steam-turbine installations.

A known system for the suction of a vapor-air mixture of a steam turbine installation, containing a condenser, in the casing of which a steam beam is placed, ejectors with refrigerators, while the tube bundles of each of the latter are connected in parallel to the steam beam through a cooling medium 1.

However, the known system of the air-vapor mixture suction has significant dimensions.

The aim of the invention is to reduce the size of the device.

This goal is achieved by the fact that the tube bundles are located in the condenser case and are separated from the vapor beam by a partition.

FIG. 1 is a general view of the vapor-air mixture suction system of FIG. 2 shows section A-A in FIG. one.

The vapor-air mixture suction system of a steam turbine plant contains a condenser 1, in the casing of which a steam beam 2 with a dedicated air cooler 3 and

a perforated pipe 4 for suction of an air-steam mixture, located in the upper part of the air cooler / cooler 3.

 To the perforated pipe 4 are connected ejectors 5 with refrigerators 6. Ejectors 5 and steam traps 7 are installed on the condenser 1 case, ejectors 5 are connected in series through the vapor-gas mixture,

10 and their number and performance are determined from the calculated pressure in the condenser 1. The tube bundles of the coolers 6 of each of the ejectors 5 are connected in parallel with the steam one.

15 beam 2 on the cooling medium, placed in the housing of the capacitor 1 and separated from the steam beam 2 by a partition 8.

The vapor-air suction system operates as follows.

Air mixed with residues of uncondensed steam from steam beam 2 enters air cooler 3, where additional condensation of steam from the steam-air mixture occurs. Then the vapor-air mixture flows through the pipe 4, located along the entire length of the condenser of the spout 1, into the ejector 5. Condensate,

30 formed from the working steam entering the ejector 5, and the steam-air mixture flows into the lower part of the coolers 6 and ejectors 5 and through the steam trap 7 enters the condensate trap (not shown).

Such an implementation of the vapor-air mixture suction system will make it possible to exclude the piping system for supplying the vapor-air mixture from the condenser to the ejector and the piping for supplying the cooling medium to the ejector coolers, which will improve the layout of the system and reduce its dimensions.

Claims (1)

1. Kaula R. D., Robinson I.V. Condensation plants, - L ,, Technique and production, 1929, p. 217. 4 G eight AjL