SU45299A1 - The method of obtaining liquid carbon dioxide (CO2) from flue gases - Google Patents

Description

The present invention relates to methods for producing a solid carbon acid fCOot from flue gases obtained by burning coke (or other fuel) with passing flue gases through scrubbers, absorbers, heat exchangers and calciner.

In existing plants, the process of carbon dioxide production takes place at an overpressure of released carbon dioxide in the blender in the order of several millimeters of Nogo pillar water.

After the calciner, carbon dioxide is sucked in by a three-stage compressor and compressed is liquefied, after which it enters the icemaker, where it turns into snow or dry ice.

The proposed method for producing liquid carbon dioxide is that decarbonization is carried out at a higher pressure, on the order of 60-5 atm, thereby eliminating the need for compressors, so that liquid carbon dioxide is obtained directly from the condenser, where the hydrolyzed acid is compressed after decarbonating the biarbonate.

Thus, the whole process of obtaining liquid carbon dioxide can be solved (32)

triple as absorption refrigeration matiin. The agent is carbon dioxide and the absorbent is potassium carbonate, and the liquefied gas from the condenser does not go to the evaporator, but to the ice generator.

The drawing shows a diagram of the application of the proposed method for producing liquid carbon dioxide (CO2) from flue gases.

When coke is burned in the furnace by the method of Osuf or other fuel, if the installation operates according to the Cantor method, hot flue gases a pass through the tubes of the calciner 1, where they give off heat, with the help of which bicarbonate will be decarbonized, after which the gases enter the heat exchanger 2, from where the exhaust fan is discharged from the scrubber 3 to the adsorber 4.

In the absorber, carbon dioxide is absorbed by a solution of potash in the presence of water, as a result of which potash is converted to potassium bicarbonate.

Since the CO absorption reaction is exothermic, it is necessary to provide for cooling the absorber with water.

From absorber 4, a rich solution of potassium bicarbonate b is pumped through pump 7 through heat exchangers 5 and 2 and enters decarbonator 1, where potassium bicarbonate dissociates into carbon dioxide, water, and potash. A portion b of potassium bicarbonate, a heat exchanger mine, flows from the absorber to the decarbonization distillation column 1, which maintains a high pressure in the order of 60-65 atm. by heating the bicarbonate with flue gases.

Poor solution obtained after decarbonization; the potash is removed from the calciner, passes through the throttle valve and heat exchanger 5, and enters the absorber 4, where it is again saturated with carbon dioxide.

The carbon dioxide d obtained during the decarbonization process enters the condenser 8, where it is cooled by water, the nopie of which, being liquefied in the cooling of the body, the liquid carbon dioxide CO enters the icemaker to turn into a solid state.

The part of gaseous carbon dioxide emitted in the icemaker is directed to the subcooler, and from it enters the absorber 4, where it is again absorbed.

Exhaust gases from the absorber 4 are exhausted to the atmosphere through an exhauster 6.

The subject matter of the invention.

A method of producing liquid carbon dioxide (COg) from flue gases produced by burning coke or other fuel, passing flue gases through a scrubber, absorbers, heat exchangers and a calciner, characterized in that the calciner maintains a high pressure of about 60 to 65 atm. heating of bicarbonate by means of flue gases with the subsequent liquefaction of carbon dioxide in the condensate.