Patent ID: 7897023
Filing Date: 2011-03-01
Classification: C02F,C25B

Abstract:
1. A device for producing anodic oxidation products of alkali or alkaline-earth chloride solution, the device comprising at least one electrochemical reactor composed of a few modular electrochemical cells, each of the cells including a coaxial cylindrical hollow anode, an outer cylindrical cathode, and a diaphragm made of ceramic on the basis of zirconium, aluminum and yttrium oxides and arranged between the electrodes; the electrodes are fixed in lower and upper mounting units so that hydraulically isolated anode and cathode chambers are formed; the chambers having inlets in the lower mounting unit and outlets in the upper mounting unit, wherein the inlet and outlet of the anode chamber are in communication with the anode hollow, and the anode has perforations arranged in the upper and lower parts as well as evenly along the length of the anode; the cells of the reactor or reactors are of one type, the anode and cathode are at an interelectrode distance of 8-10 mm, wherein: d=1.5-2.3 interelectrode distance D=3.0-4.3 interelectrode distance L δ=0.15-0.35 interelectrode distance and S k ≧S a , wherein: d is the outer diameter of the anode; D is the inner diameter of the cathode; L δ is the thickness of diaphragm side walls; S S the cells are provided with input lines to cathode and anode chambers and output lines from cathode and anode chambers, the lines being connected to the lower and upper mounting units correspondingly, the cells of the reactor are arranged at one level and hydraulically connected in parallel; the device further comprises a supply line with a pump for supplying initial solution under pressure; a manifold of initial solution connected to the initial solution supply line and the input lines to the anode chambers of the cells; a manifold for gaseous products of anode oxidation connected to output lines from the anode chambers of the cells; a cathode circulation circuit connected to the input and output lines of the cathode chambers of the cells and provided with a means for gas separation; an upstream pressure controller connected to the manifold of anode oxidation gaseous products; and an output line for gaseous products from the anode chamber connected to the upstream pressure controller; a controller of chloride solution level in the anode chambers, characterized in that the reactor or reactors of the device each comprises from 2 to 16 electrochemical cells; the manifold for initial solution supply and the manifold for collecting gaseous products from anode chambers are vertical and have the number of inlets and outlets corresponding to the number of cells in the reactor, said inlets and outlets are arranged symmetrically relative to the their vertical axis of symmetry; the means for separating gas of the cathode circulation circuit is in the form of an upper vertical manifold; and the device further comprises a lower vertical manifold of the cathode circulation circuit and the vertical heat exchanger located between the upper and lower manifolds of the cathode circulation circuit, wherein the inlet and outlet of the heat exchanger are connected correspondingly to the upper and lower manifolds of the cathode circulation circuit; these manifolds also have the number of inlets and outlets equal to the number of cells in the reactor, and their inlets and outlets are arranged symmetrically relative to their vertical axis; the manifold of initial solution supply, the lower manifold of the cathode circulation circuit, the heat exchanger, the upper manifolds of the cathode circulation circuit and the manifold for collecting gaseous products from cell anode chambers are arranged along one vertical axis, wherein the upper manifold of the cathode circulation circuit is placed at a height not less than L d from the cathode chamber output, the manifold for collecting gaseous products from cell anode chambers are placed above or below the upper manifold of the cathode circulation circuit, the input lines and output lines of cathode and anode chambers are in the form of pipes with inner diameter of not more than 0.5 interelectrode distance and equal length of not less than 2 L d , wherein reactor cells are arranged symmetrically relative to the vertical axis along which the upper and lower manifolds of the cathode circulation circuit are arranged with the heat exchanger between them.