SU685632A1 - Filter - Google Patents

Claims (2)

(54) FILTER LYM section of the throughput holes (up to 200 µm, depending on the required diameter of air bubbles corresponding to the type of aerotank used). The dispersing sheath 3 is separated by a gasket 4 from a mesh cylindrical shell having a conductive coating and a cathode 5. The current-conducting coating of the cathode 5 is made of a material containing a more electropositive metal with respect to the metal of the anode (for example silver) or graphite. The conductive coating of the cathode 5 also includes a depolarizer. The through holes of the elements 1, 2, 4, 5 are 10 to 30 times the cross-sectional area of the through-holes of the dispersing shell. When the filter is in operation, the air passes through the openings of the supporting frame 1 and then through the small openings (filters) of the dispersing shell 3, where it is dispersed and the Oj suspension of the active suspension or in the cleaned drains is saturated. In this case, the area between the anode 2 and the cathode 5 is filled with liquid, which in this case serves as electrolyte. Due to the fact that the anode and cathode are interconnected by conductor b, electrons are transferred along the conductor, and the whole system is a galvanic cell closed by conductor 6, in which the following reactions take place: at the anode: Me ,, (OH ) G + 2e at the cathode: Me2O + H2O + 2e-2Me2 + 2Nd, O, and Me, j where Me is the anode metal and cathode, respectively. The mechanism of the cathode process in electrolytes of complex composition, such as wastewater, is currently not well understood. However, under the influence of electron transfer in the external circuit 6 in the internal circuit, which is the electrolyte, ion transfer of the dissolving anode Me occurs, which have a broad spectrum of bactericidal effect, resulting in an area between the anode 2 and cathode 5, saturated with inhibitor ions, not biodegradable. The introduction of a depolarizer into the cathode material 5–24 contributes to the long-term operation of the system. Besides; In addition, the air oxygen blown through the cathode 5 can also play the role of a cathode polarizer in case the conductive Lukering of the cathode 5 is made using coal. Due to the fact that the cross-sectional area of the cathode 5 holes is several tens of times larger than the cross-sectional area of the dispersing holes, and the number of microorganisms deposited on the cathode is grouped only on the surface of the cathode 5, the resistance to the movement of air flow and its dispersion on the surface of the dispersing shell does not affect. The use of the proposed filter will allow to increase the service life of the filter constructions used in the process of bioremediation, increase their efficiency, and reduce the cost of maintaining excessive air pressure. Claim 1. A filter for biological water purification, including a skeleton and a dispersing shell, characterized in that, in order to prevent fouling of dispersion by microorganisms in the shell, it is equipped with an anode, including metal, which inhibits microorganisms and a connected current lead with a metal cathode, more positive compared with the anode, and the dispersing shell is located between the anode and the cathode. 2. Filter POP.1, characterized in that the anode and cathode are made of fiberglass in the form of metal-coated grids, and the cross-sectional area of the mesh openings is 10-30 times the cross-sectional area of the openings of the dispersing shell. Sources of information taken into account during the examination 1. USSR author's certificate No. 317721, cl. From 23 F 13/00, published 1970. 2. Gavrilko V.M., Alekseev B.C. Drill hole filters. M., Ned 1976, p.82 (prototype). f J I 1 I //////