SU1091012A1 - Condensation device for steam turbine - Google Patents

Description

The invention relates to a power system and can be used in thermal power plants.

Known condenser with regenerative heating of the condensate, containing a device for removing steam-gas mixture, surface and contact compartments of heat exchange [1].

The disadvantage of such a condenser is that to ensure the working conditions of the contact compartment, cold make-up water is introduced into it, which reduces the efficiency of the turbine.

A condensing device of a steam turbine is also known, which contains contact and surface cooling stages with individual condensate collectors installed sequentially along the steam, the contact stage being equipped with a water distributor connected to the condensate collecting tank of the surface stage, and the latter equipped with a non-condensable gas exhaust pipe £ 2].

A disadvantage of the known device ₂ 5 is the low efficiency due to a significant degree of hypothermia of the condensate.

The purpose of the invention is improving work efficiency.

This goal is achieved by the fact that in the condensing device of a steam turbine containing contact and surface-mounted cooling stages with individual condensate collectors installed along the steam, the contact stage is equipped with a water distributor connected to the condensate collector of the surface stage, and the latter is equipped with a pipeline. the house of non-condensable gases, the contact stage water distributor is enclosed in a casing, perforated in the lower part, and the non-condensable gas pipe is connected to the casing below the water distributor.

The drawing schematically shows the proposed device.

The condensing device of the steam turbine contains contact and surface cooling stages 1 and 2 installed along the steam with individual condensate collectors 3 and 4, respectively, and the contact stage 1 is equipped with a water distributor 5 connected to the condensate collector 4 of the surface stage 2, and the latter is equipped with a discharge pipe 6 non-condensing gases. The water distributor 5 is enclosed in a casing 7, perforated in the lower part, and the non-condensable gas exhaust pipe 6 is connected to the housing 7 below the water distributor 5.

VNIIIPI Order 3067/38

Branch of PPP Patent,

In addition, the condensing device of the steam turbine contains a pipe 8 for supplying steam. The surface stage 2 contains the upper and lower water chambers 9 and 10, respectively, with water supply and discharge lines 11 and 12. To the upper part of the casing, 7 is connected to the pipe 13 suction gas-vapor mixture. The surface stage 2 in the lower part is communicated by means of an inlet chamber 14 with a condensate collector 4, which is connected via a line 15 with a pump 16 to the water distributor 5 of the contact stage 1. A steam suction element 17 is installed in the inlet chamber 14. The cooling surface in stage 2 is pipes 18. The condensate collector 4 is connected by line 19 to line 11.

The condensation device operates as follows.

The steam coming through the pipe 8 mostly condenses in the surface stage 2 on the pipes 18, the cooling water to which comes from the upper water chamber 9 connected to the line 11 and is discharged from the lower chamber 10 through the line 12. The rest of the steam together with non-condensing gases through the pipeline 6 enters the casing 7, where the steam condenses, and the vapor-gas mixture enriched in non-condensable gases is removed through the suction pipe of the vapor-gas mixture 13. The steam condensate formed in the surface stage 2 enters through the inlet chamber 14 to the condensate collector 4, from where it enters the line 15 and is pumped to the water distributor 5 of the contact stage 1 with the pump 16, where it serves as the cooling agent vapor and is heated up to the saturation temperature determined by the vapor pressure . * In condensate collector 4, circulating water discharged from the line is used as a cooling agent; 11 along line 19 and discharged into line 12 through the lower water chamber 10. The steam coming together with condensate into the inlet chamber 14 is sucked out through the element 17 and the casing 7 into the conduit 13. Condensate from the casing ‘7 is discharged through the perforation in the lower part of the latter. Merging in the form of jets, it is heated by the steam entering through the pipe 8 and is collected in the condensate collector 3 of the contact stage 1.

This embodiment of the device will reduce the average heat load of the surface stage, and by increasing the temperature of the entire condensate behind the contact stage · reduce the content of corrosive gases in the main condensate and thereby increase work efficiency. Circulation 631 Subscription

Claims (1)

. A CONDENSATION DEVICE FOR A STEAM TURBINE, comprising contact and surface cooling stages arranged individually along the steam with individual condensate collectors, the contact stage being equipped with a water distributor connected to the condensate collecting tank of the surface stage, and the latter equipped with a non-condensing gas exhaust pipe, which in order to increase work efficiency, the water distributor of the contact stage is enclosed in a casing, perforated in the lower part, and the pipeline from water of non-condensable gases is connected to the casing below the water distributor.