SU859325A2 - Method of ozonation process control - Google Patents

Description

(54) METHOD OF REGULATING THE OZONATION PROCESS

Claims (1)

The invention relates to the treatment of water and can be used in sewage treatment plants using ozone as an oxidizing agent. Ozone is a very valuable oxidizing agent used in a whole number of industries. The need for it all the time increases and at the same time increases production from there. The main and most efficient way to produce ozone is to synthesize it in electrical discharge from oxygen or air. At the present time, when it comes to industrial, the use of ozone, the question of choosing TOGO1 or another mode of operation of ozonizers for various schemes of the ozonator plant is already beyond the scope of the purely physicochemical problem. Economic calculations come into force, which show that, losing in one, you can significantly win in the other. It may turn out that the work of ozonizers that are not in the optimal physico-chemical mode will be economically more preferable. According to the main author. St. No. 615045 discloses a method for controlling the ozonation process, which consists in simultaneously changing the supply voltage of the ozone generator and the air flow directly proportional to the flow rate for disposal, the residual concentration of the component oxidized by the ozone in the runoff, and inversely proportional to the ozone concentration in the spent ozone mixture LlJ The costs of ozonation are determined by the cost of electricity, the concentration of ozone and the cost of cooling water. However, the known method provides a more economical operation of the ozonator unit only for the first two to become m. The purpose of the invention is to increase the economic performance of regulating the ozonation process. 8 This goal is achieved by varying the flow rate of cooling water depending on the residual concentration of the component oxidized by ozone in the drain. FIG. 1 shows the ozonation control flow chart; in fig. 2 is a diagram reflecting an experimental setup for implementing the proposed method. The method is carried out as follows. Oxygen gas through a gas flow regulator is supplied to ozonizers. At the same time, a certain gas flow rate (dd) is set at the voltage of the ozone generator {and ha A.) and the flow rate of the coolant in the inlet water (bLO | A inputs). The residual concentration of ingredients is recorded by a sensor, the signal from the secondary device of which through the amplifier enters the comparison nodes for the voltage of the ozone generator, gas consumption and cooling flow. water. The error signal between the set voltage and the amplified signal from the secondary device (protorok) goes to the voltage regulator, which changes the voltage of the ozone generator directly in proportion to the residual concentrations of the ingredients. Similarly, a regzling occurs. gas consumption. Controlling the flow rate of cooling water is carried out using the flow rate controller of cooling water in the following functional relationship. Q 21.0 + 0.1524- (C-33) -2.5569 10 C-33 where O. - cooling water consumption. W4j C - concentrate of concentrates, mgl. For C 33.0 Q const 21. Oxygen gas through regulator 1 (Fig. 2) gas flow is fed to ozone generator 2, from where the ozone-oxygen mixture obtained is directed through a piping system and dispersing device 3 into working reactors of 1-5 m each for the implementation of the technological process of neutralization of wastewater with ozone. To trap unreacted ozone, a DO-630 ozone degasser is used. In the process of disposal of wastewater, the residual concentration of ingredients in the stock is monitored. For this purpose, a residual concentration is measured in the samplers 4 by the sensor 5. The signal is recorded by the secondary device 6, from where it is fed through amplifiers 7 to the comparison nodes 8. Mismatch signals between a given voltage (UaoA-) and the flow of gaseous oxygen (O and the cooling water (O) / and the amplified signal from the secondary device (proportional to the residual concentration of IN1 redients in the working reactors) are sent to the regulators: voltages (voltage (not shown) ). The gas flow controller 1 and the cooling water flow controller 9 change the voltage and flow rate of the ozone-oxygen mixture at a directly proportional to the residual concentration of ingredients in the reactors, and the flow rate of cooling water varies in excess of functional dependence,% od, ee1d 21-0, 152A (C-33) - 2, L569 (C-ZZ) i where the flow rate of cooling water, s, is the concentration of ingredients in the drain, g / m. Invention Formula regulating the ozonation process according to auth. St. No. 615045, o tl, which is due to the fact that, in order to increase the efficiency of the process, the flow rate of the cooling water is changed depending on the residual concentration of the component oxidized by ozone in the drain. during examination 1. USSR author's certificate No. 615045, cl. From 01 to 1/38, 1973.