RU2021981C1 - Oxidizing canal - Google Patents

Abstract

FIELD: biological purification of waste water. SUBSTANCE: oxidizing canal is elongated reservoir separated by longitudinal partition into communicating canals. Aerator is mounted on pontoon and has hollow shaft with turbine fastened on its lower end. Turbine has blades in the form of propeller and holes between blades. Upright 13 has suction and water withdrawal branch pipes and tail narrowing nozzles positioned at water withdrawal branch pipe. Design of aerator and its guiding apparatus made in the form of shaped upright with branch pipes and nozzles provides optimization of hydrodynamics of flows and considerable increase of oxidizing efficiency of the installation. EFFECT: enhanced oxidizing capability. 2 dwg

Description

 The invention relates to the biological treatment of wastewater in open reservoirs using activated sludge.

 Known oxidation channel, which is an elongated reservoir, divided by a longitudinal partition into interconnected channels, input and output nodes of the treated wastewater and an aerator on a pontoon, placed in the guide circulation pipe [1].

 However, the known oxidation channel does not provide high quality water purification due to inefficient hydrodynamics of flows, formation of stagnant zones and low coefficient of utilization of oxygen. In addition, the complex design of the aerator is characterized by high energy consumption.

 The purpose of the invention is to increase the efficiency of use by optimizing the hydrodynamics of the flows of treated water and reducing energy consumption.

 This is achieved by the fact that in the oxidizing channel containing the reservoir, consisting of communicating channels with a longitudinal dividing wall between them, the nodes of the input and output of the treated water and at least one aerator on a vertical shaft located in the riser, the aerator shaft is hollow, and the aerator - in the form of a turbine with propeller blades and with holes between the blades, the riser is equipped with suction and drainage elbows attached to its lower and upper edges and directed in opposite directions, and also attached tapering to the last with tailing narrowing nozzles with a jumper between them.

 Figure 1 shows the oxidation channel, a view in plan; figure 2 - aerator in the riser, a longitudinal section.

 The oxidizing channel contains an elongated tank 1, divided into channels 2 and 3 connected by a longitudinal partition 4, nodes 5 and 6 of the input and output of the treated waste water, the aerator 7 on the pontoon 8. The aerator is mounted on a hollow shaft 9 and is made in the form of a turbine 10 with blades 11 in the form of a propeller, and between the blades in the turbine holes 12 are made, communicating with the cavity of the shaft 9. The riser 13 has suction 14 and drainage 15 of the elbow connected to its lower and upper edges and directed in opposite directions, as well as and the tail tapering nozzles 16 connected to the latter, separated by a jumper 17. The aerator has a salenbloc 18 for the shaft in the drainage elbow, as well as an electric motor 19.

 The oxidizing channel operates as follows.

 The source wastewater enters node 5 and is subjected to aeration in the channels, falling into the suction elbow 14 of the riser aerator. Air is sucked into the aerator through a hollow shaft 9 and enters water through holes 12, is intensively mixed with the latter in the riser 13 and the drainage elbow 15. Water saturated with oxygen from the air is discharged horizontally through the tail nozzles 16, uniformly distributed over the entire cross section of the channel. From one channel, the treated water enters a parallel channel, where it is also saturated with atmospheric oxygen. Part of the treated water is discharged through the unit 6, and the other part is recycled and mixed with newly received water for treatment. The implementation of the guide apparatus of the aerator in the form of a riser with profile nozzles - suction and drainage elbows, as well as with tail tapering nozzles allows for active and smooth circulation of water in the structure, eliminate stagnant zones and increase the absorption coefficient of oxygen.

 The proposed design allows 1.25-1.40 times to increase the oxidative power of the oxidizing channel.

Claims (1)

 OXIDATION CHANNEL containing a reservoir of interconnected channels separated by a longitudinal partition, input and output nodes of the treated waste water, at least one aerator with a vertical shaft, placed in a riser in the form of a coaxial cylindrical shell, coaxial to the shaft, characterized in that the aerator shaft is made hollow, and the aerator is made in the form of a turbine with blades in the form of a propeller and with holes between the blades, the riser is equipped with attached to its lower and upper edges and directed against false sides of the suction and drainage elbows, as well as tail narrowing nozzles with a jumper between them, attached to the free edges of the drainage elbow.

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