SU789128A1 - Method of regenerating adsorbent (activated charcoal) for purifying ethanol-amine solution - Google Patents

Description

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The invention relates to an improved method for the regeneration of an adsorbent for the purification of an ethanolamine solution and can be used in technological schemes for the purification of gases, in which ethanolamine is used as an adsorbent.

Known methods of cleaning solutions of ethanolamine various adsorbents, such as diatomaceous earth, diatomaceous earth, etc. 1.

The regeneration of the adsorbents in this case is carried out by removing only the solid particles accumulating on the adsorbent.

The closest in technical essence to the present invention is a method in which the regeneration of the adsorbent-activated carbon used for the purification of ethanolamine solutions is performed by steaming 2.

The disadvantage of this method is that the service life of the adsorbent is relatively short (no more than 10 hours), after steaming, only the filtering capacity of the adsorbent is restored, and the ability to absorb decomposition products of ethanolamine is not regenerated.

The purpose of the invention is to eliminate these drawbacks and increase the adsorption capacity of activated carbon to ethanolamine decomposition products after regeneration.

The goal is achieved by the fact that the activated carbon is treated with an antipolymer solution, for example, phthalic anhydride, before steaming.

The described method for regenerating an adsorbent for purifying an ethanolamine solution is as follows.

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Through the adsorber filled with activated carbon brand SKT, pass a solution of ethanolamia at a temperature of 0-40 ° C, preferably at 2025 ° C. The circulation of the solution continues

20 until the effect / adsorption ceases (the concentration of decomposition products in the solution being purified does not decrease). Next, the activated carbon is washed. water and treated with a saturated aqueous solution of an antipolymerization agent phthalic anhydride, in order to exclude the polymerization of the adsorbed products on carbon by heating it. Then, 30 pairs of steam with a temperature of 120-180s are passed through the SKT brand coal.

for 4-6 hours. The SKT grade activated carbon thus regenerated retains its initial adsorption capacity for the decomposition of ethanolamine.

Example. The adsorption capacity of activated carbon SKT grades to the decomposition products of monoethanolamine is determined as follows. A 150 ml solution, with an impurity concentration of 40 g / l, is placed at a temperature, activated carbon SKT (from 1. to 25 g). L Complete cleaning of the solution is achieved in containers with 15 g or more of activated carbon. Thus, the adsorption capacity for decomposition products is 40% of its weight.

Example 2. P, the generation of spent activated carbon SKT is carried out by passing steam through it for 4-6 hours at 120-180 ° C. The adsorption capacity of carbon SCT is not restored due to the polymerization of decomposed products on the surface of the sorbent. In the case of pre-treatment of the sorbent with a saturated aqueous solution of phthalic anhydride followed by steaming, the adsorption capacity of the spent carbon SKT acquires the initial capacity, i.e. makes up 40% of its weight. The number of cycles (saturation of the adsorbent and its regeneration) is over 30.

Example 3. Purification of the monoethanolamine solution from decomposition products is carried out under industrial conditions. An adsorber with a diameter of 800 mm and a height of 6000 mm is filled with 1500 kg of activated carbon of the brand SKT. The solution volume in one unit is 15 m.

The results of purification of monoethanolamine solution from decomposition products are given in the table.

Claims (2)

Invention Formula The method of regeneration of the adsorbent-activated carbon is to clean the ethanolamine solution, including the steaming of the adsorbent, characterized in that, in order to increase its adsorption capacity, the adsorbent is treated with an antipolymerization solution such as phthalic anhydride before steaming. Sources of information taken into account in the examination: 1, Semenova T.A., Leites I.L. Purification of process gases. M., Himi, 1969, p. 159. 2., Greenberg P. Refrigeration, 1954, 1, p. 67 (prototype).