SU1641405A1 - Method of cleaning water from arsenic - Google Patents

Abstract

The invention relates to chemical technology, in particular to methods for the purification of natural, waste and recycled water and industrial solutions from the mouse, and can be used in analytical chemistry for pre-concentration of the mouse before its determination. The aim of the invention is to increase the degree of purification from a pyvalent mouse. Purification is carried out by filtration of mouse-containing water through a semipermeable membrane at a pH value above 3 in the presence of quaternized polyethyleneimine at a constant concentration of 1.0–4.0 May%.

Description

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The invention relates to chemical technology, in particular to methods for purifying natural, waste and recycled water, as well as industrial solutions from the mouse.

The purpose of the invention is to increase the degree of purification from a pivalent mouse.

PRI me R 1. Water (80 ml) containing 1 ml / l of As (V) with a pH of 8.5 is placed in a reservoir, and a 76 As radionuclide is injected to control distribution. An aqueous 4% solution of quaternized polyethylenimine-KPEI solution (4 ml) is placed in an ultrafiltration cell. Purified water containing As (V), while stirring, is forced through a CPAI solution and a membrane. The solution volume in the ultrafiltration cell is kept constant. Just miss more than 20 times the volume of the solution relative to the volume of the polymer.

Above the membrane, 85.2% of the mouse is retained. The aqueous solution leaving the cell is purified to the values of the maximum permissible concentration - MAC (0.05 mg / l).

EXAMPLE 2 An aqueous solution of a mouse containing 9.2 mg / l of a mouse with a pH of 8.5 is pumped through the well according to Example 1. The mouse is held in the well by 89.8%. To clean the solution before MPC, it is re-pumped through the polymer solution.

Froze An aqueous solution of the mouse, containing 100 mg / l of mouse (V) with a pH of 8.5, is pumped through the polymer solution according to Example 1. The mouse is held at 63.5%. To decrease the concentration of the mouse to the MPC, the process is repeated twice.

Example 4: The solution is cleaned to the mouse (V) according to Example 1, but the pH is set to 10. The mouse is held in

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cell by 96%. The concentration of the mouse in the filtrate corresponds to the MPC (0.05 mg / l).

Example 5: The solution is cleaned from the mouse (V) according to Example 1, but the pH is set to 11. The mouse is held in the cell at 85%. The concentration of the mouse in the filtrate is 0.15 mg / l.

Example 6: The aqueous solution is cleaned from the mouse (V) according to Example 1, but a 0.5% concentration of the bullpen is used. The mouse is only kept at 60%.

Example. The aqueous solution was removed from the mouse (V) according to Example 1. But a 1% concentration of CPEI was used. The mouse is held 90%. When the concentration of the mouse is 0.5 mg / l, purification up to MPC is possible.

PRI me R 8. The aqueous solution containing 1 mg / l of As (V) is purified by a known method. The mouse is held at 52.0%.

In order to regenerate the polymer reagent in the proposed method, the cell solution is washed with a 0.1 M acid solution (HCl, HNOz, H 2 SO 4) or with solutions of sulphate, chloride and nitrate metal or ammonium salts with a concentration of more than 0.2 mol / l at a pH of 1 - 10. The arsenic solution can be used to obtain its pure compounds. The washed polymer solution is reused for water purification.

The method can also be applied to separate the various valence forms of the mouse. Thus, the mouse for (V) is quantitatively retained under the conditions described above, while the mouse for (III) is retained under these conditions by only 6.5%, which allows

use the proposed method for the analytical separation of various mouse forms.

Before water purification, all mouse should be oxidized to mouse (V) using oxygen in the presence of MnO2 catalyst, ozone, or other oxidizing agents. In addition to the mouse (V), under optimal conditions, it is also possible to purify water from

chromium (VI), selenium (IV, VI), cadmium, cobalt, copper and zinc. The washing of the polymer from the mouse and other metals is carried out with solutions of acids and salts with their concentration of 0.1 - 0.2 mol / l (pH 1). If it is required to wash the polymer only from the mouse (V), the process is carried out at a pH of 7-10 using 0.1 mol / l salt solution.

Compared with the known method, the invention allows to increase the degree

water purification from the mouse (V) from 52.0 to 92.5% and, moreover, to increase the productivity of the process by almost 100 times due to a higher polymer capacity and carrying out the process at a constant concentration of

in a cell equal to 1 - 4 May. %

Claims (1)

DETAILED DESCRIPTION A method for purifying water from a mouse, which involves filtering water under pressure through a semipermeable membrane at a pH value above 3 in the presence of a water-soluble anion-exchange polymer material with a mol. see more than a YL about tl and h a yu and so that, in order to increase the degree of purification from a pyvalent mouse, a quaternized polyethylenimine at a constant concentration of 1.0-4 is used as an anion-exchange polymer material. , 0 May.%.