SU632656A1 - Method of cleaning waste water - Google Patents

Description

(54) METHOD FOR CLEANING WASTE WATER

Claims (2)

The invention relates to the treatment of industrial wastewater and can be applied for the deep purification of wastewater from organophosphorus compounds and complexones. Such contaminants contain wastewater from plants of the rare metal industry, which are polluted by water with tributyphosphate, trilon B, and other low molecular weight organic compounds. Methods are known for purifying wastewater from an incetomole of paired organic compounds by passing them through semipermeable membranes that form on porous substrates when special dispersed substances are introduced into the solution being cleaned. Such semipermeable membranes are called dynamic. The disadvantages of these furniture are low degree of decontamination and the need to use additional chemical substances, which are often expensive. A known method of purification of wastewater containing iron salts from tributyl isophat and Trilon B, which is blocked in passing them through semi-permeable membranes 2 |. In a known method, polymer semi-permeable membranes are used, having an average pore radius of O, O1 μm, with a pH value of more than 5 and a pressure of 8O-12O at. The disadvantages of this method are the low specific productivity of such membranes, the short duration of their operation, and the need to use high pressures to carry out the cleaning process. The chain of the invention is to increase the efficiency of the process. This goal is achieved by the fact that the water of the PODS / 1NYuT water to a pH of 1.5-3.0 and passed through two or three layers of a porous film with an average radius of pores OD-0.12 μm. It is the combination of these two parameters (the amount of effluent and pH value) that creates a new effect — the possibility of using high-performance porous foam; to clean wastewater from tributyphosphate and Trilon B without introducing additional impurities. The filling of industrial waste in the industrial wastewater led to the formation of a dynamic semi-permeable membrane on a double layer of a porous film at a pH of 1.5--3, O. Example 1. Industrial wastewater containing, mg / p; Tributephosphate 143} tripone B J.63J iron (in the form of snuffers of nitrogen and hydrochloric acid) 31 at pH 2, O, is passed through two layers of a porous film of ethylchain, with an average pore radius of 0.12 μm under a pressure of 5-8 MPa. The yield of the resulting semi-permeable membrane is 750-820, and the filtrate contains 11 mg / n tributyphosphate and 1.5 mg / n Tripone B. Thus, the degree of purification from tributyl phosphate is 92.5%, and from Trippon B 99%. Example 6 p. 2. A water solution of tribe type phosphate and Trilon B, simulating industrial wastewater, under the conditions of Example 1 is passed through a double layer of ethyl porcelain foam. With a decrease in the acidity of the solution from pH 8.0 to 2.0, increasing the degree of purification from contamination does not occur. The addition to the model solution of an insignificant number of ions of the pellet ion results in the formation of dynamic semipermeable membranes, which dramatically increases the degree of purification of the aqueous solution from organic pollutants. The prepaid method makes it possible to increase the specific production of semipermeable membranes used for the deep purification of wastewater from tributyphosphate and trypon B. by the formula 810. Formula of the screen The method of purification of wastewater containing iron salts from. tributyl phosphate and Trilon B, including passing them through a semi-permeable membrane, in order to increase the efficiency of the process, waste water is acidified to a pH of 1.5-3.0 and passed through two or three layers of a porous film with an average radius then 0.1-0.12 μm. Sources of information taken into account in the examination: 1. US Patent No. 3537988, cl. 21O-23, 1970. 2. Abstracts of the reports of the All-Union Conference on Membrane Separation Methods, M, 1973, p. 61-64.