SU829128A1 - Method of cleaning saline solutions and sewage from organic compounds - Google Patents

Description

It is safe to remove all common extractive agents, such as the neutral and acidic esters of phosphoric acid, amines, chelating agents, carboxylic acids, alkylphenols, as well as solvents, aliphatic and aromatic hydrocarbons, higher alcohols, etc. Conducting etc. The sorption rate at values does not lead to the purification effect due to the desorption of organic compounds from the surface of the resin. When the process is conducted, it is non-technological due to the fact that the medium becomes highly aggressive and corrosion occurs. The use of an alcohol solution of alkali allows to increase the regeneration rate, does not require high energy costs. From the eluate, desorbed organic matter can be distilled off, which eliminates their loss. The distilled alcohol returns to the process cycle, which also leads to a significant economic effect. Example. 20 ml of 1 M solution of NaCZ containing 610 m / l of caprylic acid is treated with stirring for 15 min. 1 g of polystyrene-divinylbenzene copolymer at: pH 3, Dl; Comparison of the wire with sorption on the coal of the BAU brand in the twisted method for 120 minutes. After filtration, the content of caprylic acid in the solutions treated with the copolymer and the coal of the BAU is determined. It is 0, and 0, respectively. Thus, comparable results are very high (sources are achieved by the proposed method approximately 8 times faster. The regeneration of the macroporous polystyrene-divinylbenzene copolymer is conducted by treating it with 1 M KOH solution in methanol or ethanol, and then water. Example 2. K1 M solution of potassium chloride, containing 1.7510 m / l of 8-hydroxyquinoline, polystyrene-divinylbenzene copolymer in an amount of 16 g per 1 l of solution is added and stirred, the system is kept for 1 hour at pH 8. After filtering the solution, the concentration of 8-hydroxy-2-нол n in it is 6, 13-10L1 / l. In the analog conditions, a decrease in the concentration of 8-hydroxyquinoline during sorption by BAU coal according to a known method to 5.9 takes 5 hours. Regeneration is carried out as in Example 1. Prize A 12 ml ion-exchange column filled with polystyrene-divinylbenzene copolymer is passed for 1 hour, 4 liters of toluene-saturated water, the pH of the aqueous solution being 2.5. In the waste water, the concentration of toluene is 0.6% of the original, and thus water can be collected into the drain without fear of environmental pollution. Regeneration of the macroporous polystyrene-divinylbenzene copolymer is carried out by passing a 1 M solution of KOH in methanol or ethanol through a column for 30 minutes at a rate of 0.5 ml (cm / min). The methanol-toluene eluate can be recovered by distillation, Prnmer4. A 1m2 of an aqueous solution of aluminum glitter containing 1.4-10 M / l of laurylamine is shaken for 30 minutes at pH 0 with 20 g of the polystyrene-divinylbenzene macroporous copolymer. After filtering the AlClj solution, the content of laurylamine in it is 2-10 m / l. Regeneration of the sorbent and laurylamine sorbed on it is carried out by treating it with a 1 M solution of KOH in methanol (ethanol, isopropyl alcohol) for 40 minutes and then distilling off the solvent. Example 5, CO, 5M aqueous solution of C6l (NO%) a with a pH of 1-2.5 containing 1.2, di-2-ethylhexylphosphoric acid (D2EHPA), was added a macroporous polystyrene-divinylbenzene copolymer in quantities of 20 g per 1 l of solution and stirred. For comparison, the same solution is treated there in the same amount of activated carbon BAU by a known method. The results of the change in the concentration of D2EHPA in both solutions over time are shown in the table.

Thus, the adsorption of organic impurities from aqueous solutions occurs on a macroporous polystyrene – divinylbenzene copolymer at a higher rate (about 8–10 times) and more efficiently than on activated carbon BAU, which reduces the process time and the volume of sorption units.

The process using the polystyrene-divinylbenzene copolymer is quite versatile and allows sorption purification of salt and water solutions from extractants and diluents of various classes. The copolymer does not require special preparation for use and can be easily regenerated for 30–40 min at room temperature (without energy consumption) by elution with alcohol alkali. In this case, sorbed organic substances can

be allocated (for example by stripping) and returned to the process.

Claims (2)

1. A method of purifying salt solutions and wastewater from organic compounds by sorption followed by regeneration of the sorbent, characterized in that, in order to increase the degree of purification, macroporous is used as the sorbent. copolymer of styrene with divinylbenzene, and the process of sorption are at pH 1-8 ,. 2. The method of Claim 1, which is based on the fact that the regeneration is carried out with an alcoholic alkali solution. Sources of information taken into account in the examination 1.Chem.et Ind-Gen chim. 1970, 103, 1, p. 429-434. 2.Soc, Chem.Pnd, London, 1974, 0 p. 943-968.