RU185915U1 - OVER-PRESSURE AIR CONDENSER - Google Patents

Abstract

The utility model relates to the field of energy, and can be used in the petrochemical industry. The air condenser of excess pressure steam is characterized in that a surface heat exchanger is placed in the gas collector, the temperature for which the cooling agent will not be higher than the temperature of the cooling air. Steam containing non-condensable gas enters the heat exchanger-condenser, most of it condenses, condensation heat is removed by cooling air, condensate flows through the collector to the condensate collector, non-condensable gases mixed with vapor residues are separated from the condensate and enter the gas collector, whose surface heat exchanger is cooled by the agent , for example, the same air whose temperature is not higher than the temperature of the air cooling the heat exchanger-condenser. As a result, the surface temperature of the heat exchanger is lower than the saturation temperature at a partial pressure of steam in the mixture. As a result of the partial pressure difference, a diffusion flow of the vapor-gas mixture from the collector to the gas collector arises, in which steam condensate collects in the lower part and non-condensable gases in the upper part. Condensate enters the condensate collector through a water trap, and non-condensable gases are removed from the cycle through an atmospheric valve. The removal of non-condensable gases increases the heat transfer coefficient during steam condensation and, thereby, increases the efficiency of the air condenser.

Description

The device relates to the field of energy and can be used in the petrochemical industry.

Steam condensers of power plants are known, containing a heat exchange surface with a separated part of a cooler of non-condensable gases with their removal using an ejector or a ring pump (see Fedorov VA, Milman OO “Condensers of steam turbine plants”, because of MSTU named after N.E.Bauman, 2013, p. 370-371).

The main disadvantage of these devices is the loss of part of the condensing product into the environment.

Air vapor condensers of closed power plants and petrochemical technologies are known, consisting of a heat exchanger-condenser and a condensate collector from which non-condensable gases in a mixture with a working fluid are discharged into a special gas collector and removed from the cycle by the compressor together with the working fluid for subsequent separation of the working fluid (see Small Company and Alternative Energy. "ORMAT ORC installations: [Electronic document], (http://maenerg.ru/ormat.html). Verified on 08/16/2018).

The disadvantage of this device is the need for energy consumption to drive the compressor.

These disadvantages can be overcome if a surface heat exchanger is placed in the gas collector, the temperature of which will not be higher than the temperature of the cooling air.

It consists of a heat exchanger-condenser 1 connected to a collector 2 and a condensate collector 6, and a gas collector 3 with a surface heat exchanger 5, an atmospheric valve 4 in the upper part of the gas collector 3 and a water trap 7, connected to the lower part of the gas collector 3 and the condensate collector 6.

The device operates as follows: steam containing non-condensable gas enters the heat exchanger-condenser 1, most of it is condensed, the condensation heat is removed by cooling air, condensate flows through the collector 2 into the condensate collector 6, non-condensable gases in the mixture with vapor residues are separated from the condensate and supplied to the gas collector 3, the surface heat exchanger of which 5 is cooled by an agent, for example, the same air whose temperature is not higher than the temperature of the air cooling the heat exchanger-condensate R. As a result, the surface temperature 5 is lower than the saturation temperature at a partial vapor pressure in the mixture. As a result of the partial pressure difference, a diffusion flow arises from the collector 2 to the gas collector 3, in which steam condensate collects in the lower part and non-condensable gases in the upper part. Condensate through the water trap 7 enters the condensate collector 6, and non-condensable gases through the atmospheric valve 4 are removed from the cycle.

The removal of non-condensable gases increases the heat transfer coefficient during steam condensation and, thereby, increases the efficiency of the air condenser.

Claims (1)

The overpressure steam air condenser contains a surface heat exchanger-condenser, a collector, a condensate collector and a gas collector, characterized in that a surface heat exchanger is installed in the gas collector, to which an agent with a temperature not higher than the temperature of the cooling air is connected, an atmospheric valve is installed in the upper part of the gas collector, and the lower part gas collector is connected to the condensate trap.

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