RU2155162C1 - Aerotank-expulsor - Google Patents

Abstract

FIELD: biological cleaning of sewage. SUBSTANCE: aerotank-expulsor has housing divided into communicating passages by means of partitions; areas of vertical cross sections of these passages are equal; aerotank includes also pneumatic aeration system with filters fitted on bottom of each passage, water supply narrowing branch pipe with swirler rigidly secured on it; swirler consists of four longitudinal plates whose end surfaces are turned relative to each other through 90 dwg, activated sludge inlet, cleaned water and sludge outlets; housing and partitions are connected with bottom by means of bow-shaped members. EFFECT: avoidance of stagnant pockets; possibility of smooth mixing of sludge and waste water. 4 dwg

Description

 The invention relates to the field of biological wastewater treatment and can be used in various industries and in utilities.

 The installation of aeration tanks of the corridor type with pneumatic aerators is known (see page 28. Modeling aeration structures for wastewater treatment / Braginsky LN et al. - L .: Chemistry, 1980. - 144 s, ill.), Comprising a housing, partitions, pipelines for the supply of wastewater, activated sludge, the removal of purified water and the air supply from the supercharger, an air distribution device.

 The disadvantages are insufficient mixing of wastewater and activated sludge at the beginning of the 1st corridor, the formation of stagnant zones at the bottom of the aeration tank, insufficient contact of the mixture with air at the beginning of the aeration tank.

 Known aeration tank - displacer (see AS N 1318543, MKI C 02 F 3/02. Bull. N 23. 1987), containing a housing divided by partitions into corridors connected in series, the width of each subsequent corridor is 0.7-0 , 8 the width of the previous corridor, and the areas of their vertical cross sections are equal to each other, inlets and outlets of water and activated sludge, a pneumatic aeration system with filter filters located at the bottom of each corridor.

 The disadvantages are insufficient prevention of the formation of stagnant zones, especially the 1st aeration tank corridor and the precipitation of activated sludge, due to the geometric design of the structure.

 The technical task of the invention is to ensure uniform mixing of sludge and wastewater and increase the efficiency of wastewater treatment, as well as preventing the formation of stagnant zones.

The technical result is achieved by the fact that the aeration tank contains a housing divided by partitions into corridors in series, the areas of their vertical cross sections being equal, the inlets and outlets of water and activated sludge, a pneumatic aeration system with filters placed at the bottom of each corridor. The water inlet is made in the form of a tapering nozzle, inside of which a swirler is rigidly fixed, consisting of 4 longitudinally arranged plates, the end surfaces of which are rotated 90 ^° relative to each other, as well as the body and partitions of the aeration tank, connected to the bottom by arched elements.

 In FIG. 1 shows an aerotank displacer, a section; in FIG. 2 - same, plan view; in FIG. 3 - swirl; in FIG. 4 - tapering pipe.

The aerotank-displacer contains a housing 1, divided by partitions 2 into corridors 3, communicating in series, and the areas of their vertical cross sections are equal to each other. The aeration tank has water inlets 4 and activated sludge 5, at the water inlet there is a tapering pipe 9 with a rigidly fixed swirler 10, consisting of 4 longitudinally arranged plates, the end surfaces of which are turned 90 ^° relative to each other, the conclusions of the treated water 6 and sludge 7 , a pneumatic aeration system with filters 8 located on the bottom 11 of each corridor 3. Housing 1, partitions 2 and bottom 11 connect the arcuate elements 12.

 The device operates as follows.

 The water intended for cleaning is supplied to the inlet 4 of the aeration tank, at the end of which a tapering pipe 9 having a swirler 10 is planted. Passing through the tapering pipe 9 and moving along swirler 10, the water swirls, i.e., it passes from a direct-flow jet to a rotary due to which there is intensive mixing of activated sludge and water, and the contact area of the mixture with air increases, as a result of which the efficiency of water purification increases. During the rotational movement of water and through the introduction of arcuate elements 12 at the junction of the partitions 2 and the housing 1 with the bottom 11 of the aeration tank, the mixture layers smoothly flow around all the corner joints of the structure, which completely eliminates the occurrence of stagnant zones at the bottom of the aeration tank. Further mixing of the mixture and preventing the precipitation of activated sludge in the sediment is carried out under the action of a supply under air pressure through filters 8 in each corridor 3.

 The originality of the technical solution lies in the fact that an increase in the process of mixing water with activated sludge and an increase in the contact area of the mixture with air are achieved not only by supplying air through the filters under pressure, but also by twisting the water at the outlet of the tapering pipe with a swirl, and preventing the formation of stagnant zones are achieved by introducing arched elements at the junction of the body and partitions with the bottom of the aeration tank, thereby increasing the efficiency of wastewater treatment.

Claims (1)

Aerotank-displacer, comprising a housing divided by partitions into corridors communicating in series, the areas of their vertical cross sections are equal, water and activated sludge inlets, purified water and sludge outlets, pneumatic aeration system with filters located at the bottom of each corridor, characterized in that at the water inlet a tapering nozzle with a rigidly fixed swirler consisting of 4 longitudinally arranged plates, the end surfaces of which are rotated 90 ^° relative to each other, and the body and partitions of the aeration tank are connected to the bottom by arched elements.

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