SU328928A1 - METHOD FOR REGULATING ADSORPTION BLOCKS - Google Patents

Description

The invention relates to methods for purifying gases from rifles using sorbents, in particular to methods for regenerating (desorbing) sorbents.

The known method of adsorption air drying with the regeneration of the adsorbent by blowing it with a part of the processed gas stream, heated, for example, in an electric heater, using it as a blower gas as a blower. In the jet apparatus, as a working gas, the gas withdrawn after one of the compressor stages is used to detect the gas to be processed.

The aim of the invention is to reduce energy consumption and regeneration and increase the efficiency of adsorption.

This goal is achieved due to the fact that the air flow going to regeneration is divided by the B vortex tube and the cold and hot streams, and then the cold air flow is directed and heat exchange with the main flow of the air to be dried. The hot air stream is then released into the jet air jet, where it is used to suck in a cold air stream and then the mixed stream is fed to the regeneration.

The assembly consists of adsorbers / and 2, electric heater 3, heat exchanger 4, vortex tube 5, ejector 6, coolers 7 and S, and valves 9-17. Gas purification does not occur in one of the adsorbers, while the other adsorber is regenerated.

The air to be dried is fed through the centille 10 into the adsorber / li, then through the valve 16 is diverted to the consumer. When this valve f, 12, 13 and 15 are closed.

A portion of the air used to regenerate the adsorber 2 is iodized through the hood 17 into the vortex tube 5 for energy separation. After separation, the cold stream is transferred to the heat exchanger 4, where it is heated by the main flow of air going through the drying process to a temperature close to the ambient temperature.

From the heat exchangers 4, the heated air flow is sucked off by the electron 6, using a hot air flow as the active gas, from the vortex tube 5.

After the ejogore 6, a mixed note of air is sent to the electric heater 3, from where through the valve 14 to the regeneration of the adsorber 2, and then through the valve // to the atmosphere. At the end of the regeneration, the veins are cooled. The adsorbers are cooled in the usual way, for example by supplying cooling WATER through the cooler 8.

The introduction of energy separation of the regenerating gas flow, for example air, allows, on the one hand, to slightly lower the temperature of the air going to the drying, and thereby increase the effect of adsorption. On the other hand, the energy consumption for carrying out the regeneration process decreases as the temperature of the displaced air flow and in front of the heater increases due to the corresponding heating of the cold air flow after the vortex tube.

The amount of heat given off by the main flow of the dried air to the cold air stream after the vortex tube is saved in an electric heater. Thus, for example, for thermal block, OUV-10 debris when passing through a vortex tube 20% of the processed air at a ratio of cold and hot flows I: 1 air with an unheated heater increases its temperature from 30 to about 50 ° C, which is 8% power consumed for regeneration.

Subject invention

A method for regenerating adsorption units for drying gas, such as air, by blowing them with a portion of the processed air heated in an electric heater, using a jet apparatus as a blower purge gas, characterized in that in order to reduce energy consumption for regeneration and increased adsorption efficiency, the air going for regeneration,

in the vortex tube, they are divided into cold and hot streams, after which the cold stream is directed to heat exchange with the main stream of the processed air, and the hot stream is used in a jet device for

the suction of the cold stream heated after heat exchange, and the resulting mixed stream are fed to the regeneration.