SU143020A1 - A device for deep cleaning of industrial gases - gels, neon and hydrogen - Google Patents

Description

A device is known in which deep cleaning of gels takes place in adsorbers with activated carbon at pressures up to 2 atm and temperature of liquid nitrogen. In this case, the adsorber is placed in a bath with liquid nitrogen. The possibilities of increasing the diameter of the known adsorbers are limited and are determined by the value of the allowable temperature gradient over the cross section of the adsorbent layer normal to the flow of purified gas.

Another disadvantage of existing adsorber designs is the expenditure of a portion of the useful cold of a liquid coolant (e.g., liquid nitrogen) to compensate for the influx of heat to the outer layers of adsorbent from the environment.

The proposed device for deep cleaning in the industrial scale of gases - helium, neon and hydrogen - is known for the fact that the adsorber is equipped with a system of through internal tubes welded into its bottom and designed to pass refrigerant through it and cool the adsorbent, thereby increasing sorption capacity coal, performance and quality of cleaning.

It is also distinguished by the fact that the adsorber together with the liquid refrigerant bath and the heat exchanger "pipe in the pipe" are placed in a hollow separable casing designed to pass the refrigerant vapor and utilize the cold of the purified gas. With this design, the consumption of cold in the cleaning process is reduced and the degree of utilization of the adsorbent layer increases.

No. 143020- 2 In addition to jorp, the difference lies in the fact that, in order to seal and compensate for the output pipelines, there is a bellows compensator fixed on the housing cover with a flange.

The device shown in the drawing consists of an adsorber /, a bath 2 for liquid refrigerant, a housing 3 for refrigerant vapor, a filter, a heat exchanger pipe and a pipe 5 (wound around the bath for liquid refrigerant) and a pulse tube to the refrigerant level indicator.

Adsorbs) is located in a bath of liquid nitrogen, located inside a hollow detachable metal casing, in which there is also a heat exchanger pipe in the pipe and a filter. Inside, the adsorber is equipped with a system of overflow pipes welded by its channels to the upper and lower bottoms. The number of tubes and the design of the casing are determined by calculation depending on the required power and performance. The upper bottom of the Cornus has a non-perforated support flange, a joint with a Bepxiui M bath flange filled with liquid refrigerant (for example, liquid nitrogen). Through the holes of the flange, from the upper sides of the adsorber tubes, they get into the upper part of the corns, and coolant fluids are drained from the lower part, which makes it possible to utilize the refrigerant gas.

In the upper part of the casing there is a coil tenlobium pipe in the pipe, which is washed by coolant vapors for better use of the adsorbent and simultaneous utilization of cold.

Compaction of the outgoing tubes and their thermal deformations are carried out with a bellows bellows with a flask attached to the top cover of the casing on the gasket, which ensures the maintenance of vacuum and isolates the space inside the casing.

Subject invention

Claims (3)

1. Device for deep gaseous gels, neon and hydrogen from various gaseous irrimeas, which is an adsorber with activated carbon in a bath with liquid nitrogen, characterized in that Ost coal, productivity and quality of cleaning, the adsorber is equipped with a system of through tubes of BF1, tubes of 1 in their intended passage through and refrigerant and adsorbent cooling. 2. Device but also. 1, so that, in order to reduce the consumption of cold for the cleaning process and increase 1 and the degree of utilization of the adsorbent layer, the adsorber along with the liquid refrigerant bath and the heat exchanger "pipe in pipe" are nvTOTELY a detachable casing, designed to pass the vapor of the refrigerant and utilize the cold of the purge gas. 3. The device according to claim 1, that is, so that, with the aim of sealing and compensating the output pipelines, the lid is fixed with a flange with a snopf compensator. . smtsitt Ecnschm and 3Kfysnu j aScopSsHmii Purified gas