SU1303561A1 - Aerotank-ejector - Google Patents

Abstract

The invention relates to the treatment of wastewater of small objects and improves the performance of aeration tanks by separating sludge by flotation and increasing the concentration of sludge. The aerotank propellant is a rectangular tank equipped with transverse, not reaching to the bottom, partitions forming interconnected chambers, each of which is equipped with a flotation cell separator: the aeration tank is equipped with pipelines for the transfer of water from the previous zone to the next through transverse partitions; the water transfer pipe is connected to the bottom of the sludge separator, and the scavenger is located in the center of the communicating chambers along the longitudinal movement of water. The flotation sludge separator is made in the form of a cylindrical body connected to the bottom of the aerotank, with a partition that is coaxially located and elevated above it, and a cavitation aerator is inserted inside the body, on the trunk of which a funnel-type valve is mounted that overhangs the upper partition. In the desilter aerator floats the liquid and simultaneously provides aeration of the liquid. The flow of the liquid being floated is controlled by a valve. 1 hp f-ly, 1 ill. About O1 O

Description

The invention relates to the treatment of wastewater of small objects, to the structures of aero tanks-propellants.

The purpose of the invention is to improve the performance of the aeration tank displaced by separating the sludge from the flotation and increasing the concentration of sludge.

The drawing shows the aeration displacer, section.

The aero-propellant contains a rectangular tank 1 with a bottom 2 and vertical walls 3, inlet 4 and outlet 5 pipelines, transverse partitions 6 are attached to the bottom and divide tank 1 into communicating chambers 7. Each chamber has cavitational aerators for 8 seconds. an electric motor 9, a shaft 10 and a rotor 11 Before each transverse partition the chamber is equipped with a desalter 12 if bypass pipe 13 from the previous chamber to the next one. The white separators are located in the center of the chambers along the longitudinal movement of water from the inlet to the outlet and installed in the form of a cylindrical body 14 connected to the bottom 2, with a partition 15 that is coaxially located and rising above it. the shaft 10 of which is mounted a height-adjustable valve 16 of the funnel type, overlapping the cylindrical partition 15.

Aero-propellant works as follows.

Sewage water enters the inlet conduit 4 into the first chamber 7 of the aerotank, where it mixes with the activated sludge and air supplied through the aerator-8. The mixture enters the desilter 12 and flows through the bypass pipeline 13 into the subsequent chamber 7. the cylindrical body 14 of the desilter aerator 8 floats the liquid and simultaneously aerates the waste water in the chamber 7. Due to the air-lift effect between the cylindrical case 14 of the desolator and the coaxially located partition 15, the liquid moves upwards. Part of it enters the interior of the housing 14, and the main part, together with the floatable liquid-like type. As a result, the circulation of fluid in the aero-tank chambers around the cylindrical partition 15 is ensured. Similarly, the subsequent chambers 7 of the aero-tench function except for the last one, in which there is no desilter. From the latter, the chamber, purified water through conduit 5 enters the secondary stop. In the variant - a secondary settling tank with thin-layer modules or without nsh can be inserted into the last chamber, in this case the last chamber works as an aero-sump. In connection with flotation, a sludge mixture is separated in the sludge separator, and in the previous chambers the aerotank propellant produces an increased concentration

0 active sludge. Deaf transverse partitions ensure the maintenance of the individual biocenosis of the active

f5

25

sludge, thanks to which the productivity of the aeration tank is increased.

Claims (2)

1. An aero displacer comprising a rectangular tank divided by transverse partitions into communicating chambers, each of which has an aerating device characterized in that In order to increase productivity 35 by separating the sludge by flotation and increasing the sludge concentration, the transverse partitions are connected to the bottom of the tank, each chamber is equipped with a flotation desilter located in its center in front of the transverse partition, the aeration tank is equipped with water transfer lines from the previous chamber to the next one connected to the bottom parts of the sludge separator. 2. The aerotank propellant according to claim 1, characterized in that the flotation desilter is made in the form of a cylindrical body connected to the bottom of a tank, with a burnout coaxially located and elevating above the body with a cavitational an aerator, on the axes of which with a fitting and foam, flows through an orifice of a height-adjustable valve between the partition 15 and of an adjustable-funnel type, blocking the height-adjustable valve 16 with a raven and cylindrical partition. 035612 co-type As a result, the circulation of fluid in the aero-tank chambers around the cylindrical partition 15 is ensured. Similarly, the subsequent chambers 7 of the aero-tench function except for the last one, in which there is no desilter. From the latter, the chamber, purified water through conduit 5 enters the secondary stop. In the variant - a secondary settling tank with thin-layer modules or without nsh can be inserted into the last chamber, in this case the last chamber works as an aero-sump. In connection with flotation, a sludge mixture is separated in the sludge separator, and in the previous chambers the aerotank propellant produces an increased concentration 0 active sludge. Deaf transverse partitions ensure the maintenance of the individual biocenosis of the active f5 25 sludge, thanks to which the productivity of the aeration tank is increased. Formula of gain 1. An aero displacer comprising a rectangular tank divided by transverse partitions into communicating chambers, each of which has an aerating device characterized in that in order to increase productivity by separating the sludge with flotation and increasing the sludge concentration, the transverse partitions are connected to the bottom of the tank, each chamber is equipped with a flotation sludge separator located in its center in front of the transverse partition, the aeration tank is equipped with water transfer pipes from the previous chamber to the next one attached to the bottom sludge separators. 2. The aero propellant according to claim 1, characterized in that the flotation desilter is made in the form of a cylindrical body connected to the bottom of the tank, with a burnout coaxially located and elevating above the body, // Editor T. Mitejko Compiled by G.Meskhi Tehred A. Kravchuk Proofreader L. Pilipenko Order 1273/26 Circulation 852 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, Projecto st., 4