RU11726U1 - DEVICE FOR PUMPING NON-CONDENSABLE GASES - Google Patents

Description

DEVICE FOR PUMPING NON-CONDENSABLE GASES

The utility model relates to devices for pumping non-condensable gases from an energy system that uses a liquid with gases as a coolant, and can be used in power plants of the chemical industry, in particular for pumping aggressive and toxic gases into a closed volume, etc.

For pumping non-condensable gases, as a rule, various mechanical or jet pumps are used.

Close in technical essence to the claimed utility model is a steam ejector installation connected to a condensate collector (see Shklover G.G., Milman O.O. Research and calculation of condensation devices of steam turbines. - M .: Energoatomizdat 1985. p.163) which contains a housing, a cooler, a condensate drain pipe connecting the housing to the condensate collector, a pipe connecting the housing to the environment, a steam ejector having a steam supply pipe, and connected to the steam-gas mixture supply pipe to the condensate collector ohm

Non-condensable gases are evacuated from the condensate collector, and the resulting vapor-gas mixture enters the cooler, from which the condensate is drained back to the condensate collector, and non-condensable gases are discharged through the pipe into the environment.

The disadvantage of this device is the high consumption of working steam due to the large, at times, the pressure difference between the condensate collector and the cooler of the gas-vapor mixture, as well as the fact that the pumped gas is released into the environment when the gas is aggressive.

The purpose of the utility model is to reduce steam consumption for removal of a gas-vapor mixture, as well as the possibility of continuous operation of a power plant without emission of gas into the environment.

This goal is achieved by the fact that in the known installation, the steam ejector and the pipe connecting the casing to the environment are removed, and the steam supply pipe is connected to the condensate collector and an auxiliary ejector is installed, the suction of which is connected to the condensate collector, and the outlet is with the power plant.

In FIG. 1 shows a device for pumping non-condensable gases.

A device for pumping non-condensable gases comprises a housing 1 connected by a steam-gas mixture supply pipe 2 to a condensate collector 3, a cooler 4 installed in the housing 1. The steam-gas mixture supply pipe 2 is connected to the side of the housing 1. A condensate drain pipe 5 is connected to the bottom of the housing 1, the second end of which is connected to the condensate collector 3. An adjustable choke is installed on the pipe 5. A steam supply pipe 7 is connected to the condensate collector 3. For pumping excess steam-gas mixture and pressure maintenance installed auxiliary ezhetor 8, the inlet of which is connected to the condensate collector 3, and the output of the power plant.

During operation, the steam in the housing 1 condenses on the cooler 4, and due to the pressure difference formed, a new vapor-gas mixture flows through line 2. The condensate formed as a result of cooling the vapor-gas mixture with cooler 4 flows through the pipe 5 into the condensate collector 3, while non-condensable gases accumulate in the housing 1. The steam necessary to maintain the pressure and the formation of the gas-vapor mixture is supplied to the condensate collector 4 through the nozzle 7. Auxiliary ejector 8 pumping out a certain amount of steam-gas mixture, maintains pressure in the condensate collector. The adjustable choke 6 is adjusted so that in the housing 1 there is a constant level of condensate.

The steam flow rate required for the formation of a vapor-gas mixture and the operation of the auxiliary ejector is much less than the steam flow rate required for the operation of the ejector of the steam ejector installation.

Claims (1)

A device for pumping non-condensable gases, comprising a housing, a cooler, a condensate drain pipe, a steam-gas mixture supply line, characterized in that a steam ejector and a pipe connecting the housing to the environment are removed from the steam-gas mixture suction device, and a steam supply pipe is connected to the condensate collector and installed auxiliary ejector, the suction of which is connected to the condensate collector, and the output to the power plant.