RU2187057C2 - Condensing plant - Google Patents

Abstract

FIELD: chemical and food industries, geothermal power engineering; heat exchange equipment. SUBSTANCE: condensing plant has steam condenser with condensate collector and condensate pump with suction pipe, steam-gas mixture collector and gas removal device with suction line connected to steam-gas mixture collector, and pressure line. Pressure line of gas removal device is connected to suction pipe of condensate pump. EFFECT: improved efficiency of evacuation of non-condensing gases. 1 dwg

Description

 The invention relates to heat exchangers, in particular, can be used in turbine plants, chemical and food industries in process steam condensers, geothermal energy.

 Known condensation units containing a steam condenser and an air extraction device in the form of a steam jet ejector (Shklover GG, Milman OO "Research and calculation of condensation devices of steam turbines", M., Energoatomizdat, p.162).

 The main disadvantage of such installations is the low efficiency of the ejector stages and, consequently, the high consumption of working steam.

 Condensing units are known that contain a steam condenser with a condensate pump and a gas removal device in the form of a water-jet ejector for air suction (see ibid.).

 The disadvantage of this installation is the low efficiency of the steps of a water-jet ejector, which requires a high degree of compression and, therefore, requires a large flow of working water.

 The technical result of the invention is to increase the efficiency of the system for removing non-condensable gases from the condensation unit.

 The technical result is achieved by the fact that the condensation installation comprises a steam condenser with a condensate collector and a condensate pump with a suction pipe, a gas-vapor mixture collector and a gas removal device with a suction line connected to a gas-vapor mixture manifold, and a discharge line, a discharge line of a gas-removing device connected to a condensate pump inlet .

 Compression of the mixture to atmospheric pressure takes place in a condensate pump, the efficiency of which is several times greater than that of ejector type exhaust devices.

 The drawing schematically shows a condensation installation.

 The condensation installation comprises a steam condenser 1 with a condensate collector 2, a condensate pump 3 with a suction pipe 4, a vapor-gas mixture collector 5, a gas removal device 6 connected to the vapor-gas mixture collector 5 and having a suction line 7 and a discharge line 8. The discharge line 8 of the gas removal device 6 is connected to the suction pipe 4 of the condensate pump 3.

 Installation works as follows. The steam is condensed in the condenser 1, the condensate is collected in the condensate collector 2 and is pumped through the suction pipe 4 by the condensate pump 3 to the process circuit. Non-condensable gases in a mixture with steam are collected in the collector 5 of the gas-vapor mixture and through the suction line 7 enter the gas removal device 6, and from it through the discharge line 8 are fed into the suction pipe 4 of the condensate pump 3, where they are compressed from the pressure in the condenser 1 to the outlet pressure condensate pump 3.

 Thanks to such a structural design solution, it is possible to drastically reduce the energy consumption (or working water) for a gas removal device and thereby increase the efficiency of power plants.

Claims (1)

 A condensing installation comprising a steam condenser with a condensate collector and a condensate pump with a suction pipe, a vapor-gas mixture collector and a gas extraction device with a suction line connected to a gas-vapor mixture manifold, and a discharge line, characterized in that the discharge line of the gas removal device is connected to the condensate suction pump.