SU199161A1 - COOLING METHOD OF ADSORPTION BLOCKS - Google Patents

Description

The invention relates to the field of gas purification from impurities from sorbent sorbents, in particular to cooling methods for adsorption units after the desorption stage.

A known method of cooling the adsorption blocks, the desorption step, consists of passing a portion of the gas taken from the main purified source through the blocks, with the next cooling of this portion of the gas by an Eneshm source of cold and mixing with the flow. However, if this method is used for purification units with zeolites operating at a temperature lower than the ambient temperature (8–10 ° C), additional cooling of the circulating stream is needed, which is associated with an increase in energy consumption.

The proposed method allows one to eliminate this drawback and differs from the known one in that the gas current flowing out of the adsorption units is cooled by regenerative heat exchange with a gas flow entering the cooling of the adsorption units. This method allows the temperature of the gas to be kept below ambient temperature during the cooling of the regenerated adsorption units.

Installation of composit nz adsorbers / and 2, preheater 3, cooler 4, for example, air or water, regenerative tenlobicine 5, flow regulator 6 with sensor

7 p valves 8-19.

Gas purification occurs in one of the adsorbers 1 or 2, while the other adsorber is regenerated. Compressed air passes through pre-cooling.

via adsorber. Vepgili 14 p 8 open, 9

and 15 are closed. Through the air regulator 6, the ios; ie, the cleaning is divided into a block separated.

The adsorbent in the adsorber .2 regenerrues in

two ethane.

Stage I - heating - is carried out by one of the known methods, i.e. supplying the waste fraction to the separation unit through the α-heater 3, valves 8 and 11 to adsorber 2, which is heated through valve 13 and 17, and gas is discharged into the atmosphere. At the same time, the fans 16 and 19 are closed, and the regulator 6 is fully open. Instead of a fraction, you can use atmospheres N air, iodavaimy with mongyu any. Supercharger.

The n stage is cooling, for which the compressed air is used, which is used very first: the stack in the canister. The air is taken from the line in front of the regulator 6, it irrigates the flow sensor 7, the regenerative tank 10, where the medium is heated, and is directed to the cooling of the adsorber 2 through the open valve 9.

The compressed air passed through the adsorber 2 and heated in it, in the cooler 4, is cooled to a temperature that is blinded to the ambient temperature (the initial temperature level), for example, using water or air by blowing air. Then, in the heat exchanger 5, this air flow is cooled to a temperature of 1-3 ° C above the pre-cooling temperature and is connected to the total flow at the point behind the regulator 6. At the same time, valves 17 and 18 are closed and valve 16 is open. The required flow distribution is provided by the regulator 6.

The introduction of recuperative cooling of the air that has passed the adsorber and the refrigerator, before being mixed with the rest of the air flow by heating the cooling flow: the adsorber allows regeneration of the adsorber practically without increasing the temperature of the pre-cooled purified air, i.e., it saves

electricity but compared with other ways. Heat exchange between the two air streams mentioned above is possible with small temperature differences due to the high effect of heat exchange between high pressure gas streams. This factor makes it possible to reduce losses from the lack of cold to the minimum.

Subject invention

The method of cooling the adsorption units after the desorption stage by the nronuspacia through n, their parts of the gas stream, separated from the previously cooled and purified

the main stream, followed by cooling this part of the gas stream and mixed with the main stream, characterized in that, in order to reduce the energy costs of the process, the cooling of the gas flow coming out of the adsorption units is carried out by recuperative heat exchange with the same gas flow coming to the cooling of the adsorption units.

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