SU1685921A1 - Method for purifying alkanolamine aqueous solution - Google Patents

Abstract

The invention relates to amines, in particular, to a method for purifying aqueous solutions of amines used to purify natural and associated petroleum gases from hydrogen sulphide and carbon dioxide, and can be used in the oil and gas industry. The goal is to simplify the process. The process is carried out in an extractor by contacting an aqueous solution of an amine in countercurrent with the gas oil fraction of pyrolysis from a flash point of 200-450 ° C and a mass content of asphaltenes 2 to 10%. The method allows to obtain an aqueous solution of an amine of the same degree of purity as in the known method, and to simplify the process by carrying out it by continuous technology with the possibility of easy regeneration of the sorbent and its repeated use of CO with

Description

The invention relates to an improved method for purifying aqueous solutions of amines, used in turn for the purification of natural and associated petroleum gas from hydrogen sulphide and carbon dioxide, and can be used in the oil and gas industry.

The purpose of the invention is to simplify the process.

Example 1. At a laboratory extractor at 40 ° C, an industrial (aqueous) diethanolamine (DEA) solution is fed from above at a rate of 1.5 l / h and from below into a countercurrent solution. DEA is a sorbent at a rate of 0.3 l / h, representing is a gas oil fraction of pyrolysis boiling in the range of 200 - 450 ° C, having a density at 20 ° C of 0.9880 g / cm and containing 2% by weight of asphaltenes. The ratio of aqueous solution of amine: sorbent 5: 1. From the upper part of the extractor, the sorbent contaminated with impurities at a rate of 0.3 l / h is continuously removed for regeneration by distillation, and from the lower part of the extractor - 1.5 l / h purified aqueous solution of DEA, then settled for 60 minutes and analyze.

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The height of the foam column in the untreated aqueous solution of DEA and treated with the proposed sorbent is respectively 370 and 80 mm, the content of impurities soluble in SCC is 332 and 95 mg / l, respectively.

Example 2. At 40 ° C, a laboratory glass extractor at the top is fed with a commercial aqueous solution of DEA at a rate of 1.5 l / h, and at the bottom — a countercurrent with an aqueous solution of DEA sorbent at a rate of 0.3 l / h, which is a gas the left pyrolysis fraction boiling in the range of 200 - 450 ° С, having a density at 20 ° С of 1,000 g / cm3, containing 10 May. % asphaltenes. The aqueous solution of the amine treated with the sorbent is in a zone of sediment 60 minutes

The height of the foam column in the untreated and treated amine solution is respectively 370 and 40 mm. the content of hydrocarbons soluble in SCC is 332 and 100 mg / l.

Example Z. At a laboratory glass extractor at 40 ° C, a commercial aqueous solution of methyldiethanolamine (MDEA) is fed from the top at a rate of 1.5 l / h, and from the bottom — to a counter flow of the solution of MDEA sorbent at a rate of 0.3 l / h. gas oil fraction of pyrolysis boiling in the range of 200 - 450 ° C, having a density at 20 ° C of 1.000 g / cm 3 and containing 10% by weight of asphaltenes. The ratio of aqueous solution of amine: sorbent 5: 1. Of

the top of the extractor is continuously diverted to the regeneration of contaminated sorbent in an amount of 0.3 l / h, and from the bottom of the extractor - an aqueous solution

MDEA in the amount of 1.5 l / h, purified MDEA is located in a zone of southeast of 60 minutes.

The height of the foam column of the MDEA aqueous solution before and after the sorbent treatment is 410 and 107 mm, respectively; the content of impurities soluble in the SCC is 376 and 102 mg / l.

Example 4: Carried out in the same manner as in Example 3. An aqueous solution of monoethanolamine (MEA) is purified.

The height of the foam of an aqueous solution of the IEA to

and after the treatment with the sorbent is respectively 470 and 60 mm, the content of impurities soluble in the SST. - 355 and 76 mg / l. Thus, the proposed method

Claims (1)

allows to simplify the process by carrying out it by continuous technology with almost the same degree of purification of aqueous solutions of amines, as well as due to easy regeneration of the used sorbent and its repeated use. DETAILED DESCRIPTION A method for purifying an aqueous solution of alkanolamines from organic impurities by treatment with a sorbent, characterized in that, in order to simplify the process, gas oil fractions of pyrolysis with a boiling range of 200-450 ° C with an asphaltene content of 2-10 wt.% are used as a sorbent.