SU872461A1 - Method of waste water purification - Google Patents

Description

(54) METHOD FOR CLEANING WASTE WATER

Claims (2)

The invention relates to the treatment of waste water using electrocoagulation and can be used to purify waste water from suspended particles. A known method of purification of wastewater from suspended particles using electrocoaguli l. However, in the practical application of electrocoagulators, deposits are formed on the electrodes, therefore, it is necessary to increase the voltage or periodically reverse the polarity of the electrodes. The closest to the proposed technical essence is a method of sewage treatment, including treatment in an electrocoagulator and application of alternating electric current to a fluid flow constant during the hydrodynamic regime that keeps the coagulated particles on the walls of the electrodes 2. However, using this method to clean suspended particles are associated with significant costs of electricity and metal electrodes. The purpose of the invention is to reduce the energy intensity of the process and reduce the metal consumption of the electrodes during the treatment of wastewater from suspended particles. In order to achieve this goal, wastewater treatment is carried out in an electrocoagulator when an alternating electric current is applied to a constant current, and the process is carried out by applying an alternating current voltage to the direct current direction 1–3 and the hydrodynamic mode of fluid flow in the electrocoagulator, characterized by Re 2OOO-5OOO. The method is carried out as follows. The imposition of an alternating current on a constant allows the short-term cathodic polarization of the anodes 1 to be realized with a flatter switch. At the same time, the OXY film formed during anodic polarization is destroyed by the release of hydrogen bubbles in the form of a bubble. In addition, in the hydrodynamic mode characterized by Re 200O-50OO, the processes of formation, polymerization, demerisation and partially hydration do not flow, which provides Coagulum in the form of ions with maximum relative charge (AI-OH) with the highest coagulating ability. Example. Sewage from the concentration of the suspension of 1X substances is about 5 g / l, pH 7 (composition of the solid phase, wt.%: Montmorillonite 65, kaolin 15, quartz 1O, the remaining carbonate) is treated in an electrocoagulant with aluminum electrodes when the alternating electric toni is applied on a constant nny. The voltage is varied in the range of 5-40 V, the ratio of the variable component voltage to the constant varies from 0 to 4. The velocity of the fluid in the electrocoagulator is 5 and 12 m / s and 5OOO respectively. The water treated in this mode after 6 min of coagulation has a concentration of about 2 mg / l of suspended solids. When and the ratio Unep / Jpoc-f O; one; 2; 3; 4, the power consumption is accordingly kWh: 0.065; O.O62; 0, O58; O, O55 and O, 056. With respect to UneplUpocf 0; one; 2; 3; 4, the power consumption is respectively kWh: 1.34; 1.27; 1,2O; 1.14 and 1.34. Aluminum consumption is 20 mg / l and 1 mg / l, respectively, with and. When the suspension content of a suspension depends on time, the equilibrium character reverses and the performance is not weakened. Thus, the optimum {method of sewage purification from suspended particles is in the range of the ratio of the variable component to the constant 1-3 and the values of Re 20OO-500O. The proposed method allows to reduce the energy consumption of the process at a maximum ratio of variable component voltage to a constant and minimum, or to reduce the consumption of aluminum at maximum Re, and the number of deposits on the electrodes is significantly reduced. Claims of wastewater treatment including treatment electrocoagulant and the imposition of alternating electric current on a constant, characterized in that, in order to reduce the energy intensity of the process and reduce the consumption of electrodes prt cleaning with intramural water from suspended particles, the process at provoD5gg otns II-VI AC voltage to the voltage d.c. 1-3 and hydrodynamic fluid movement mode elektrokoagul torus ha rakterizuemom Re 2OOO-5OOO. Sources of information taken into account in the examination 1. VM Kornilov and others. The use of electrical processing in water purification processes. - Journal of Applied Chemistry, Academy of Sciences of the USSR, vol. 48, no. 2, 1975, p. 357. 2. Lavrov I. S. and Smirnov O. V. On some problems of water electro-cleaning, Interuniversity. Sat. NO 2, Electrical processing of disperse systems, LISI, 1975, Cj 86, (prototype).