SU614030A1 - Device for automatic regulation of process of biochemical purification of waste water - Google Patents

Description

The invention relates to biochemical wastewater treatment and can be used to automatically control the joint operation of the aeration tanks and secondary sewage tanks of sewage treatment plants with large changes in the flow and concentration of wastewater pollution. A device for regulating the biochemical wastewater treatment process is known, which contains an optical sludge sensor in an aeration tank, connected through an optical density meter to a controller acting on an actuating mechanism for activated sludge in an aeration box 1. The closest to the proposed technical dryness is the device for automatic control of the biochemical wastewater treatment process, containing oxygen and activated sludge concentration meters, associated with The regulators acting on the actuators for supplying air and sludge to the aeration tank, the sensor of concentration of contaminants up to the aero tank, connected through the secondary device and the correlation unit with the regulators 2. The disadvantages of the lime device are as follows. This device cannot provide high-quality biochemical production in facilities with the presence of simultaneous fluctuations in the inflow of sewage and contamination in them. In addition, the device is not equipped with a device that controls the quality of cleaning in the aeration tank. The aim of the invention is to increase the productivity of sewage treatment plants by operating at high doses of sludge, increasing the quality of treatment and reducing electricity consumption. The goal is achieved by the fact that the device additionally contains a wastewater flow meter — water, an optimizer, a correlation unit, corrective devices, a sensor for the concentration of contaminants in the aeration tank, the correlation unit being connected to the wastewater flow meter and regulators, corrective devices are connected to oxygen concentration meters and Sludge and regulators, the sensor of concentration of contaminants in the aeration tank is connected via the secondary device and the optimizer to the inputs of corrective devices. The invention is illustrated in the drawing. The device consists of two automatic control loops combined with two schemes for automatically changing the set values of the control parameters and the optimization circuit of the cleaning process.

The first circuit contains an oxygen sensor 1, an oxygen concentration meter 2, a regulator 3, an actuator 4 for supplying air to the aeration tank 5, air flow sensors, a second device 7, a correction device 8.

The second circuit contains the sensor 9 optical density of activated sludge, the meter 10 optical density, the controller 11, the actuator 12 installed on the return line of the activated sludge into the aeration tank 5 from the secondary clarifier 13, the sensor 14 of the activated sludge consumption, the secondary device 15, corrective iribor 16 .

The first scheme for changing the parameter settings contains a sensor 17 for measuring the concentration of contaminants, a secondary device 18 and a ratio block 19 associated with controllers 3 and 11 and correction devices 8 and 16.

The second scheme for changing the parameter settings includes a wastewater flow sensor 20, a secondary device 21 and a ratio block 22 associated with controllers 3 and 11 and corrective devices 8 and 16.

The optimization scheme for the cleaning process contains a sensor-23 concentration of contaminants, a secondary irrigator 24 and an optimizer 25.

The device works as follows.

When the wastewater flow rate or concentration changes, according to the signal of secondary filters 18 or 21, ratio 19 or 22 blocks change according to the corresponding laws, the given ratios on regulators 3 and 11, as well as the specified values of oxygen and sludge concentration on correction devices 8 and 16. Regulus The tori 3 and I alter the iodine of air and sludge in the required ratio. Corrective devices 8 and 16, taking into account the inertia of the process, affect regulators 3 and 11 until reaching the new-specified values of the oxygen concentration in the silt aerotank sludge.

The dependence of the concentration of contaminants in the purified water on the concentration of activated sludge in the aeration tank with a change in the inflow of sewage and the concentration of contaminants has clearly

pronounced minimum. The search for this mini-mhma is carried out by a mixer 25 by acting on the inputs of correction devices 8 and 16, taking into account the inertia of the cleaning process. At the same time, it establishes such concentrations of sludge and oxygen in the aero tank, at which the minimum amount of contaminants in the treated wastewater is ensured under the given purification conditions.

An optimizer 0 is used as the optimizer.

The dependence of the optimal ratios between the concentrations of oxygen and sludge on the flow of wastewater and the concentration of contaminants in each of them is determined by calculation or experimentally.

Claims (2)

1. US patent No. 3558255, CL. On 01 D 21/10, 1971. 2. USSR author's certificate number 397480, cl. C 02 S 5/10, 1971.