RU93034328A - METHOD FOR REGULATING THE COAGULATION PROCESS - Google Patents

Claims (1)

The invention relates to water purification and can be used in systems for regulating coagulation processes. A selected water sample is taken through a sampling tube through a valve to an electric cell (with the valve closed) and the potential of pure water is measured, the value of which is taken as 0. A saturated solution of sodium fluoride is fed into the interelectrode zone of the electrolytic cell through a porous membrane electrode. The porous membrane electrode ensures uniformity of supply - diffusion of fluorine ions into the interelectrode zone (between the measuring and comparative electrodes) due to the difference in concentrations on both sides of the membrane. Fluorine stock potential is measured. A predetermined dose of aluminum sulfate is supplied through a pipeline to a mixer, followed by supply through a valve with the valve closed, of selected water samples processed by the coagulant to the cell. As a result of the interaction of pure aluminum (Al ^{+ 3} ) contained in the coagulant with fluorine, aluminum is bound to the complex, the amount of fluorine decreases accordingly. The residual potential of fluorine is measured and the amount of aluminum in the water is judged by the difference in background and residual potentials of fluorine. As a result of the formation of the above complex, the influence of impurities contained in the coagulant on the accuracy of regulation is excluded. When deviating from a given dose of aluminum, the regulator acts on the actuator controlling the dose of the coagulant. The technical result of the proposed method is to increase the accuracy of regulation by 4 to 9 times, due to the binding of pure aluminum to fluorine in the complex and the implementation of the regulation process by potential difference — the background potential of fluorine and the residual potential of fluorine, which helps to improve the quality of water purification — the residual aluminum content in the latter decreases from 1.8 mg / l (according to Al ^{+ 3} ) in the known method to 0.1 mg / l in the proposed method; reduction in coagulant consumption, due to the exception of an overdose of the latter, by 20 - 35%; eliminates the harmful effects of residual aluminum on the human body.