SU988779A1 - Device for automatically controlling process of purification of effluents - Google Patents

Description

(54) DEVICE FOR AUTOMATIC CONTROL OF THE PROCESS OF WASTEWATER TREATMENT

The invention relates to devices for the automatic control of the wastewater treatment process from hexavalent chromium compounds and can be used in the chemical, engineering and other industries of the industry. A device is known for automatically controlling the wastewater treatment process on a plant containing a milling machine equipped with a bubbling tube, a reagent injection unit, reactant concentration sensors, and a reactor equipped with filling level sensors, chromium concentration and pH, and a wastewater flow meter 1. A disadvantage of the device is This is because it does not provide the minimum consumption of the excess of the reducing agent, since the relative magnitude of this excess depends on the initial concentration of hexavalent chromium and those smaller the greater the concentration of chromium. In addition, with sharp fluctuations in the initial chromium concentration, the quality of the control system deteriorates. The return of effluents with a residual chromium concentration at the reactor outlet is also not provided, which significantly reduces the reliability of the process. The purpose of the invention is to reduce the consumption of reagent (reductant), improve the quality of the control system, increase reliability. The goal is achieved by the fact that the device is equipped with a concentration control device, hexavalent chromium of the original wastewater with a differentiator, as well as a relay unit, the input of which is connected to the device controlling the residual chromium concentration of the wastewater to be neutralized. wastewater supply and return mechanisms. The drawing shows a diagram of the automatic control of the cleaning process. The diagram shows a tank-averager 1, where wastewater from workshops comes, reactor 2, in which the recovery of hexavalent chromium in the trivalent, tank 3; reagent (reducing agent), acid tank 4, device 5 for measuring the initial chromium concentration, device b for measuring the chromium concentration in the reactor, pH meter 7, concentration meter

8 reducing agent, acid concentration meter 9, wastewater flow meter 10, differentiator 11, regulator 12 with correction device 13, actuators 14-17, device 18 for controlling residual chromium concentration, relay unit 19.

The method is carried out as follows.

The effluent from the shop enters capacitance 1, where they are averaged by concentration, then to reactor 2. When the content of hexavalent chromium changes, the signal from instrument b, correction signals from concentrator 8 and flow meter 10 and the anticipatory signal from differentiator 11 proportional to the rate of concentration change chromium, enters the regulator 12, generating a command signal acting on the actuator 14 changing the flow of the reagent (restored) in the reactor 2 from the tank 3. When the pH of the waste water in the reactor does not match The value of the signal from the pH meter 7 and the correction signals from the concentrator 9 and the flow meter 10 are fed to the controller 2, and from there the command signal is fed to the actuator 15, which changes the acid supply from the tank 4,

If the residual concentration xpigMa, controlled by the device 18, is less than the sanitary standard, the relay unit 19 commands the opening of the actuator 17 and the drains are sent to neutralize. Otherwise, the actuator 17 is closed, and the actuator 16 is opened and the drains are returned to the tank 1.

The presence of the differentiator 11 ensures the speed of the method, since the signal coming from the differentiator is proportional to the rate of change of the chromium concentration, eliminates a static error in the regulation, since with a constant concentration of chromium the signal from the diffuser is not sent to the controller 12.

Claims (1)

1. USSR author's certificate No. 454182, cl. C 02 C 5/02, 1972.