SU1451512A1 - Apparatus for condensing steam - Google Patents

Abstract

Invention m. used in geothermal power plants. ff-e When using the invention, the efficiency of the device is improved by pre-degassing the coolant. The cooling liquid through the tangentially installed nozzle 3 enters the space formed by the casing (K) 4 and the perforated pipe 6 and serves as a device for degassing the liquid. In it, w / the suction of gases through the nozzle 5 creates a vacuum, which causes the degassing of the liquid moving along the inner wall K 4,

Description

one

The invention relates to a power system, namely to devices for steam condensation, and is intended for preferential use in geothermal power plants.

The aim of the invention is to increase the efficiency of the device by pre-degassing the coolant.

FIG. 1 shows a longitudinal section of a device for vapor condensation (BB in FIG. 2) j in FIG. 2 shows section A-A in FIG. 1 (along the plane of the nozzle for supplying the coolant KOCTi i in Fig. 3 — section B-B in Fig. 1 (in the middle part of the device case).

The steam condensation device comprises a cylindrical housing 1 with tangentially located steam supply pipe 2 and a coolant supply pipe 3. Inside the housing 1, the casing A and the pipe 5 of the vapor-gas mixture outlet are connected coaxially. shell 9, made in the form of an expanding downward cone. Inside the pipe 6, a tube 10 for removing the gas-vapor mixture is installed along its axis, in which holes 11 are made, which are located below the pressure tube 7 of the pipe 6. The pipe 10 is connected to the pipe 5 for the gas-vapor mixture discharge. The nozzle 3 for supplying fluid is attached to the upper part of the housing 4, and the nozzle 2 for supplying steam to the upper part of the housing 1. In the casing 4 below the axis

The nozzle 2 has holes 12. A shell 13 is attached to the lower part of the casing 4, which is made in the form of a downwardly expanding cone. The lower part of the housing 1 is made in the form of a cone 14 with a pipe 15 for removing condensate. At the lower end of the tube 10 for removal of the gas-vapor mixture, a baffle plate 16 is installed. A branch pipe 3 for supplying liquid is connected to the body 4

on the opposite side of the pipe 2 steam supply.

A device for the condensation of steam works as follows.

The cooling liquid through the tangentially installed nozzle 3 enters the space formed by the casing 3 and the perforated pipe 6. This space plays the role of a liquid degassing device. In it, by suction of gases through the pipe 5, a vacuum is created, which causes the outgassing of the fluid moving along the inner wall of the casing 4. At the same time, the outgassing of the liquid increases as the liquid heats up from the vapor condensing on the outer surface of the casing 4. Then the coolant through the holes 12 in the casing 4 enters the space between the housing 1 and the casing. In this space, steam is supplied through the pipe 2, which is swirled oppositely relative to the rotational movement of the fluid. The liquid is in contact with the steam and causes it to condense. The gases leached from the steam are discharged through the openings 11 of the tube 10 of the vapor-gas mixture, the condensate of steam is removed from the lower part of the housing 1 through the nozzle 15.

Preliminary degassing of the liquid prevents non-condensable gases from being dispensed from it in the zone of mixing liquid with steam. As a result, it is possible to increase the heat transfer coefficient from vapor to liquid. The advantage of the proposed design is that the device for degassing a liquid allows it to be realized in a vacuumized volume when the liquid is heated by condensing steam. Combining the functions of dispensing water and preliminary degassing the liquid reduces the size of the device for condensing steam.

Claims (2)

1. A device for steam condensation, containing a cylindrical body with tangentially positioned steam supply nozzles and a coolant coaxially installed inside the body with a casing and a vapor-gas outlet branch pipe communicated with the space inside the casing, in order coolant degassing, the device is additionally equipped with a shell and a perforated tube with a bottom, installed coaxially inside the cap, fixed on its crown, the shell is attached to the bore and installed in the form of an expanding downward cone; inside the pipe there is additionally installed a vapor-gas outlet pipe, having openings below the perforated pipe and connected to the outlet pipe of the vapor-gas mixture; a steam supply pipe to the upper part of the housing, and in the leather below the axis of the steam supply pipe holes are made. 2. Device according to claim 1, characterized in that the liquid inlet pipe is connected to the casing on the side opposite to the inlet pipe. 2oZY from iftudHOCfTTU FIG. 2 ten figs