SU1189811A1 - Electrocoagulator for purifying waste water - Google Patents

Abstract

ELECTRIC COAGULATOR FOR CLEANING WASTE WATER, comprising a housing divided by a diaphragm into a cathode and anode chambers with a cathode and insoluble perforated and soluble, respectively, which is filled in the form of a package of chips, anodes, inlets and outlets for water, characterized in that reducing energy consumption for cleaning, the insoluble anode is located close to the diaphragm and the soluble anode, and the water inlet and water inlets are placed in the cathode chamber. (L 00 with OS

Description

The invention relates to the technical electrochemistry, in particular to devices for wastewater treatment by electrocoagulation. The aim of the invention is to reduce the energy consumption for cleaning. The drawing shows electrocoagu torus, top view. The electrocoagulator comprises a housing 1, divided by diaphragm 2 into cathode 3 and anode 4 chambers. Cathode 5 is placed in cathode chamber 3. Perforated insoluble anode 7 is located close to diaphragm 2 and pack 6 of steel shavings in anode chamber 4 and discharging treated water 9 are placed in the cathode chamber 3. The electrocoagulant operates in the following way. The source water through the nozzle 8 is fed into the cathode chamber 3, from where it fills the anode chamber 4 through the pores of the diaphragm. The treated water is taken from the cathode chamber 3 by means of the nozzle 9. Due to the electrochemical reactions on the insoluble anode 7, the pH of the anolyte decreases. Since the anolyte is not withdrawn from the anode chamber, an acidic medium is established in the anode chamber, and the steel chip packet dissolves to form ions (I). As the anolyte concentrates in the anolyte, the iron (I) ion concentrations migrate through the perforated anode 7 and diaphragm 2 into the cathode chamber 3. During migration through the perforations of the insoluble anode, the iron (II) ions are oxidized with oxygen (III) evolving on it. Since the surface of the anode 7 is strongly acidic, it prevents the formation of iron hydroxides and their deposition in the pores of the diaphragm 2. In catholyte, iron (III) hydroxide is formed due to hydrolysis of iron (III) ions. Example. Purified tap water that is artificially clouded with bentonite clay in the known and proposed electrocoagulators. The cathode current density is 30 A / m, the water flow is 300 ml / min, the insoluble anode material is graphite and steel chips, the cathode is steel 30, the diaphragms are chlorine cloth, the turbidity of the source water is 80-92 mg / l. After treatment in the electrolyzer, the water is cleaned on a polystyrene filter at a filtration rate of 8 m / h. Water treatment in the electrolyzer is carried out to obtain purified water after the filter turbidity of 1.5-3.0 mg / l. With the same turbidity of purified water, electricity consumption for water purification in the known electrocoagulator is 0.42-0.79 kW-h / m, and in the proposed one - 0.35-0.62 kW-h / m.

Claims (1)

ELECTROCOAGULATOR FOR CLEANING · WASTE WATER, containing a housing divided by a diaphragm into the cathode and anode chambers with the cathode and insoluble perforated and solution (72) respectively, V.M. Rogov, V.L. Filipchuk and I.V. Moskalev ( 53) 628.543 (088.8) (56) USSR Copyright Certificate No. 700466, cl. C 02 F 1/46, 1979. USSR copyright certificate No. 700468, cl. C 02 F 1/46, -1979. water, made in the form of a packet of chips, anodes, water inlet and outlet pipes, characterized in that, in order to reduce energy consumption for cleaning, the insoluble anode is located close to the diaphragm and the soluble anode, and the water inlet and outlet pipes are placed in the cathode chamber. SS 118681 g PB