SU110676A1 - Adsorption method for CO2 removal of compressed gases subjected to cooling in the technological cycle - Google Patents

Description

The known methods of gas purification from CO2 using adsorption on activated carbon do not provide fine purification and require large amounts of the adsorbent due to its low absorptive capacity.

The described method is devoid of these disadvantages due to the fact that the adsorption is carried out under pressure at a temperature of minus 30 minus 70 °. According to experimental data, the absorption capacity of activated carbon, for example, at a temperature of minus 50, increases by 6 times compared with the absorption capacity at 25 °.

The recovery of the absorptive capacity of activated carbon (desorption) can be dried at a pressure that is close to atmospheric pressure, without increasing or with a slight increase in the temperature of one of the fractions leaving the deep-cooling unit.

Example. The application of the proposed method in the production of synthetic ammonia.

The CO2 content (after the usual rough cleaning) in the gas is 1%, the pressure is 27 atm, the temperature is minus 50 °, the partial pressure of CO2 is 200 mmHg. Art.

Under these conditions, the activated carbon capacity is 142 mg COz per 1 g.

If the carbon capacity during desorption is reduced by 90%, then the coal capacity used is equal to 128 mg COO per 1 g.

With a bulk weight of activated carbon of 500-550 kg / m one cubic meter of coal can absorb Q7 kg

Coz.

With a gas flow rate of 1000 nm per 1 m of coal, the duration of the adsorption period is 200 minutes. Desorption can be carried out, in this case, with the CO-fraction leaving the washing unit with liquid nitrogen at a pressure of 1.3 atm.

The unit of the adsorption system, for example, at 16 thousand nm of gas per hour.

will consist of two adsorbers with a diameter of 2 m, with a height of a layer of coal 5.

The proposed purification method can also be applied to purify air in the production of oxygen and nitrogen, in industries associated with the release of hydrogen by deep cooling from electrolytic gases, for the separation of acetylene from cracking or pyrolysis products, natural or associated gases and in other cases chemical gas processing or separation by deep cooling.

Subject invention

The adsorption purification method for removing CO2 from compressed gases subjected to cooling in the technological cycle, characterized in that, in order to ensure fine purification of gases and increase the adsorption capacity of the adsorbent - activated carbon, purification is performed without pressure reduction at a temperature of minus 30 minus 70 ° The adsorbent is regenerated by passing through it a gaseous fraction leaving a deep cooling post-installation at the same temperature and pressure close to atmospheric.