SU1604749A1 - Method of automatic control of process of cleaning of effluents from hexavalent chromium - Google Patents

Abstract

The invention relates to the regulation of wastewater treatment processes and improves the accuracy of the regulation process. Microflow 2, then used as a control, is separated from the main chromium containing effluent 1, the gaseous reducing agent is metered into it in an amount necessary to completely recover hexavalent chromium in it, and sent to the flow cell 6. A second microflow is sparged through the main effluent to measure its optical density in comparison with a control solution at a wavelength of 585 nm. According to the error signal caused by the difference in the concentration of trivalent chromium ions in the compared micro-flows, the gaseous reducing agent is metered into the main drain. 1 il.

Description

The invention relates to methods for automatically controlling the wastewater treatment process and can be used in engineering and chemical industries. |

The aim of the invention is to improve the accuracy of regulation.

The drawing shows a block diagram of a device for implementing the regulation method. 1

A sample of the source water is continuously discharged from the main pipeline 1 through microtube 2 to the mixer 3, where it is mixed with SO2 supplied through dispenser 4 in the amount ₁ necessary to completely restore the maximum possible Cr (VI) content in wastewater. Then, the solution through pipeline 5 enters the flow cell 6, where its optical density at 2 wavelengths of 585 nm is recorded with a sensor 7, and a signal is generated that arrives at the direct input of the summing amplifier. After mixing the sample 8 of the treated water is withdrawn via conduit 9 into the flow cell 10, where, using the optical sensor 11 is fixed ² Ceska density of reconstituted solution and a signal at the inverting input of the amplifier 12. The output of amplifier 12 is removed error signal defined by the difference of optical density solutions in flow cells bi 10, which, after amplification in a large-scale amplifier 13, is fed to the input of the regulator 14, which controls the valve 16 by means of the actuator 15. This ensures dosing of SO2 in mixer 8 through line 17.

It was experimentally established that with a change in the concentration of Cr (III) in the range from 0.5 to 600 mg / L, the optical density of the treated wastewater solution has a straightforward dependence at a wavelength of λ = 585 nm. It was also established that other chemicals and elements that are usually associated with chromium ions in wastewater do not interfere with the determination of the latter, since they have absorption bands different from the absorption band of Cr (III) ions.

Claims (1)

Claim A method for automatically controlling the process of wastewater treatment from hexavalent chromium by continuously sampling the source and treated water, monitoring the quality parameter in them, comparing the obtained values and dosing the reducing agent in the wastewater depending on the value obtained, characterized in that, in order to increase the accuracy of regulation , in addition, a constant dose of a gaseous reducing agent is supplied to the sample of the source water before its control, which ensures complete guaranteed recovery in hexavalent chromium, this controls the concentration of trivalent chromium by measuring the optical density at a wavelength of the absorption band of trivalent chromium ions λ = 585 nm.