RU80164U1 - DEVICE FOR BIOLOGICAL SEWAGE TREATMENT - Google Patents

Abstract

The utility model on “A device for biological wastewater treatment” relates to the field of public utilities and is used for biological treatment with activated sludge of medium and large volumes of urban and similar wastewater production composition with high non-uniformity of pollution. A device for biological wastewater treatment contains an aeration tank with longitudinal recirculation of the sludge mixture formed by a circulating oxidizing channel made in the housing with a controlled aeration system and a horizontal flow mixer with an electric motor, a wastewater inlet unit, an activated sludge inlet unit, a purified liquid outlet unit, a system for maintaining constant flow rates of the sludge mixture in the aeration tank. The system consists of a horizontal flow placed in a circulating oxidation channel in front of the mixer with an electric motor in the direction of the sludge mixture of a parameter measuring unit, a controller, and a horizontal flow mixer for controlling the rotation speed of the electric motor of the mixer, configured for a threshold velocity value in the range 0.25-0.4 m / from. The unit for measuring parameters, the controller and the unit for controlling the rotation speed of the horizontal flow mixer are electrically connected. The node measuring the parameters can be made in the form of a sensor for monitoring the speed of horizontal flow. The controller may contain a threshold speed setting in the range of 0.25-0.4 m / s. The node measuring the parameters can be performed

in the form of a sensor for monitoring the concentration of substances. The knot for regulating the rotation speed of the horizontal flow mixer can be made in the form of a current frequency converter. A device for biological wastewater treatment can significantly reduce the cost of electrical energy by maintaining constant flow rates of the sludge mixture in the aeration tank with longitudinal recirculation while maintaining the required quality of treatment.

Description

A device for biological wastewater treatment The utility model for “A device for biological wastewater treatment” relates to the field of public utilities and is used for biological treatment with activated sludge of medium and large volumes of wastewater of medium and large volumes with high non-uniformity of pollution.

Closest to the claimed utility model is a device for biological wastewater treatment, including an aeration tank with longitudinal recirculation of the sludge mixture formed by a circulating oxidizing channel made in the housing with a controlled aeration system and a horizontal flow mixer with an electric motor, a wastewater inlet unit, an inlet unit activated sludge, a node for the release of purified liquid. (one)

The main disadvantages of the known device for biological wastewater treatment is that during operation, when controlling the aeration system, a rather wide range of flow velocity dispersions appears in the body of the circulating oxidizing channel, which leads to increased energy costs and, as a result, to a decrease in the quality of treatment.

The technical result of the claimed utility model is to reduce energy consumption while maintaining the required quality of treatment.

The specified technical result is achieved in that in a device for biological wastewater treatment, including an aeration tank with longitudinal recirculation of the sludge mixture, formed by a circulating oxidizing channel made in the housing with a controlled system

aeration and horizontal flow mixer with electric motor, wastewater inlet unit, activated sludge inlet unit, purified liquid outlet unit, a system is installed to maintain constant flow rates of the sludge mixture in the aeration tank with longitudinal recirculation of the sludge mixture consisting of the sludge recirculated in the circulation oxidizing channel in front of the mixer horizontal flow with an electric motor in the direction of movement of the sludge mixture of the unit for measuring parameters, the controller and the unit for controlling the rotation speed of the mixer motor Horizontal flow tuned to the threshold speed in the range of 0.25-0.4 m / s. The unit for measuring parameters, the controller and the unit for controlling the rotation speed of the horizontal flow mixer are electrically connected. The node measuring the parameters can be made in the form of a sensor for monitoring the speed of horizontal flow. The controller may have a threshold speed setting in the range of 0.25-0.4 m / s. The node measuring the parameters can be made in the form of a sensor for monitoring the concentration of substances. The knot for regulating the rotation speed of the horizontal flow mixer can be made in the form of a current frequency converter.

Such a constructive implementation of the device for biological wastewater treatment makes it possible to ensure conditions during its operation under which it is possible to maintain flow rates in the aeration tank with longitudinal recirculation of the sludge mixture constant at the level of threshold values.

The utility model is illustrated in the drawing, where Fig. 1 shows a device for biological wastewater treatment, in plan, diagram.

Device for biological wastewater treatment 1 contains aeration tank 2 s

longitudinal recirculation of the sludge mixture formed by a circulating oxidizing channel 3 made in the housing, a controlled aeration system 4 and a horizontal flow mixer 5 with an electric motor 6 placed therein, a sewage inlet unit 7, activated sludge inlet unit 8, and a purified liquid outlet 9. The system for maintaining constant flow rates of the sludge mixture in the aeration tank 2, consists of a horizontal flow with an electric motor 6 located in the circulating oxidation channel 3 in front of the mixer 5 along the course of the sludge mixture of the parameter measuring unit 10, controller 11 and the rotational speed control unit 12 of the mixer 6 horizontal flow tuned to a threshold velocity value in the range of 0.25-0.4 m / s. The node 10 for measuring parameters, the controller 11 and the node 12 for controlling the rotation speed of the horizontal flow mixer are electrically connected. As the node 10 of the parameter measurement, you can use the horizontal flow velocity control sensor, and the controller can have a threshold speed setting in the range of 0.25-0.4 m / s (not shown in the drawing).

Device for biological wastewater treatment works according to the well-known scheme as follows. The wastewater inlet node 7 provides the feed of the initial substrate, which is the concentration of wastewater pollution in the aeration tank 2. The activated sludge inlet 8 provides the return of activated sludge (a complex of microorganisms) that ensure the destruction of organic substances of the wastewater composition. Node 9 of the release of purified liquid provides the removal of the sludge mixture into the secondary settling tanks for sludge separation (not shown in the drawing).

The composition of the wastewater, the initial concentration of pollution and the incoming flow in the node 7 of the wastewater inlet undergo significant fluctuations and changes during the day and seasonally. At the same time, the controlled aeration system 4 is partially capable of compensating for fluctuations in the initial load and wastewater composition with its uneven and controlled operating mode. During rush hours of increased technological loads, the controlled aeration system 4 provides the supply of an increased amount of air oxygen for oxidation of pollution, and at hours of reduced technological loads, for example at night, it provides a reduced amount of atmospheric oxygen for oxidation of pollution. A horizontal flow mixer 5 with an electric motor 6 ensures the circulation of the sludge mixture and its suspension in suspension in the housing of the circulation oxidizing channel 3 of the aeration tank 2 with longitudinal recirculation of the sludge mixture. Entering air oxygen with a controlled aeration system (4) is not only a chemical-biological process of its dissolution and consumption. This is also a physical process of the emergence of a mass of air bubbles, which prevents the forces of horizontal flow in the aeration tank 2 with longitudinal recirculation of the sludge mixture, since it is oriented in the vertical direction. Moreover, the result of the operation of the controlled aeration system 4 is a significant obstacle or resistance that must be overcome by the force of horizontal flows formed by the work of the horizontal flow mixer 5.

Ensuring the health of the aeration tank 2 with longitudinal recirculation of the sludge mixture is a competent selection of a horizontal flow mixer 5 and the power of its electric motor (6). This selection is carried out based on the maximum performance of the controlled aeration system 4, otherwise, the forces of horizontal flows will not be enough to overcome the vertically oriented forces of ascent of the mass of air bubbles from the controlled aeration system (4) and aeration tank 2 with longitudinal recirculation of the sludge mixture in this case will not be able to provide such a recirculation, i.e. will fail. In the conditions of dynamic operation, controlled by the aeration system (4), to compensate for its influence, a system is installed in the aeration tank 2 for maintaining a constant flow rate of the sludge mixture, consisting of a controller 11, a unit 12 for controlling the rotation speed of the electric mixer 6 of the horizontal flow mixer 5, and a unit for measuring parameters which is installed in the circulating oxidizing channel 3 in front of the horizontal flow mixer 5 with an electric motor 6 along the course of the sludge mixture and provides serial electrical connections with controller 11, then node 12 to control the speed of rotation of the motor 6 lateral flow mixer 5 configured to speed threshold value in the range of 0.25-0.4 m / s. This will allow to achieve significant energy savings, since during hours of reduced technological loads, for example at night, lower power consumed by the electric motor 6 is required, in contrast to its maximum, for example, peak - daytime,

performance. The node 10 measuring the parameters can be made in the form of a sensor for controlling the speed of the horizontal flow, which determines the current value of the speed in the aeration tank 2 with longitudinal recirculation of the sludge mixture. The current value of the speed measurement via electrical communication is transmitted to the controller (11), which, in turn, compares the current value of speed with a threshold setting in the range of 0.25-0.4 m / s. The threshold setting is justified [V.I. Bazhenov, Estimated calculation of nitridenitrification processes for carousel aeration tanks, Table 1, in the collection of scientific papers MosvodokanalNIIproekt, issue 7, - M, 2007, pp. 128-134] before ( aeration tank 2 with longitudinal recirculation of the sludge mixture of grates, sand traps, primary sedimentation tanks, while the setting must be a certain specific value from the specified range. If the real flow rates deviate from the specified threshold setting, the controller (11) sends a signal via electrical communication to the speed control unit 12, which can be used as a current frequency converter, as the device most often used in technology. Although there are other devices, such as controlled gears. The task of the current frequency converter is to lower or increase the current frequency in the operating range from 10 to 60 Hz applied to the electric motor 6, which will significantly change the thrust (or axial pressure force) of the horizontal flow mixer 5. Thus, the aeration tank with longitudinal recirculation of the sludge mixture (2) is tuned to a specific threshold speed setting in the range of 0.25-0.4 m / s. High-speed flow below the threshold setting is unacceptable, since the sludge mixture will begin to separate into active

silt and clarified water, or else - stop mixing. High-speed flow of a more threshold setting is irrational, since it leads to excessive energy consumption. And sometimes even harmful, since excessive longitudinal mixing in aeration tank 2 with longitudinal recirculation of the sludge mixture destroys the denitrification processes, which affects the quality of wastewater treatment from nitrogen compounds.

Instead of a horizontal flow rate control sensor, a sensor for controlling the concentration of substances, for example, oxygen, forms of nitrogen: ammonium, nitrites, nitrates, can be installed. These substances are contained in the sludge mixture and a sharp change in their concentration will serve as a threshold signal sent to the controller 11 that the longitudinal recirculation flows of the aeration tank sludge mixture (2) have stopped, that is, the device for biological wastewater treatment has passed into an inoperative phase. In this case, the controller 11 will send an electrical signal to the rotation speed control unit 12, for example, a current frequency converter, which, in turn, will increase the speed of the horizontal flow mixer 5 (5).

The claimed utility model for “A device for biological wastewater treatment” during operation provides savings in the consumed electric power of the horizontal agitator 5 of the mixer 5 by maintaining constant flow rates in the aeration tank 2 with longitudinal recirculation of the sludge mixture (2) at threshold levels.

Information sources:

1. "Projects for the development of city infrastructure." Technologies for urban water sector development. ISSUE 7, Collection of scientific works, GUL of Moscow “Institute MosvodokanalNIIproekt, Moscow, 2007, p.122-127

Claims (4)

1. A device for biological wastewater treatment, including aeration tank with longitudinal recirculation of the sludge mixture, formed by a circulating oxidizing channel made in the housing with a controlled aeration system and a horizontal flow mixer with an electric motor, a wastewater inlet unit, an activated sludge inlet unit, an exhaust unit purified liquid, characterized in that it is equipped with a system for maintaining constant flow rates of the sludge mixture in the aeration tank, consisting of placed in a circulating oxide injection channel in front of a horizontal flow mixer with an electric motor in the direction of the sludge mixture of the parameter measuring unit, the controller and the speed control unit of the horizontal flow mixer motor, tuned to a threshold velocity value in the range 0.25-0.4 m / s, and the parameter measuring unit , the controller and the unit for controlling the rotation speed of the horizontal flow mixer are electrically connected. 2. A device for biological wastewater treatment according to claim 1, characterized in that the parameter measuring unit is made in the form of a horizontal flow velocity control sensor, and the controller has a threshold speed setting in the range of 0.25-0.4 m / s. 3. The device for biological wastewater treatment according to claim 1, characterized in that the node measuring the parameters is made in the form of a sensor for monitoring the concentration of substances. 4. The device for biological wastewater treatment according to claim 1, characterized in that the node for controlling the rotation speed of the horizontal flow mixer electric motor is made in the form of a current frequency converter.