RU705U1 - Flotation plant for wastewater treatment - Google Patents

Description

Facility for sewage treatment

The utility model relates to the treatment of STOKY urban type, agricultural complexes, wastewater containing organic pollution, including MPA, oil products, surface-auxiliaries.

A device for flotation ion wastewater treatment, including pipelines connected to each other by a flotator, a pressure tank with a pump and an ejector in the bypass lines of the pump, installed in front of (| lottery, mashines for sludge disposal, as well as the outlet piping (Copyright from tel with TV o, No. 1432444, M. cl. С02 Р 1/24, 198 7).

However, such a device is characterized by a low degree of wastewater treatment, which is typical for single-stage flotash1I feed systems.

A wastewater treatment plant is also known, which includes first-stage and second-stage fyotators created by pipelines, containing sludge chutes and drainage devices, pressure tanks with pumps and pumps in the bypass lines of the pumps installed in front of each pump: flotator, Sh1amoud mechanisms, in each flotator, as well as input and output pipelines (Author svadztelstBO I446II2, Mkl. С02 1/24, 1987).

However, such an installation is characterized by excessive complexity due to the presence of a second pump unit and a pressure tank and, as a result of the lack of operational reliability.

to application 930I8I5I //

The task to be solved aprilly - and assuming; / the utility model is to simplify the cooper / kpya and to increase the exploitation of supervisory accuracy.

This problem is solved by the fact that in the flotation: installation for CLEANING sewage water, which includes the first pipe of the first and second flotators: the lead containing pockets and the second device, is installed :: in front of the second stage flotator " an upstream tank with a pump containing an ejector in its bypass and connected to an SBU, I draw in a suction pipe with a first stage flotator device, as well as an output pipe, an upstream tank is connected to the first stage flotator through a hydraulic elevator located at the reception oh the container into which the inlet conduit is wound, LKAU drain ustroystBOm. the first stage flotator and the suction pipe of the suction pump washing out the exact capacity, and the outlet pipe is connected to the slave device of the second stage flotator.

A graphic representation of the concept of the proposed installation is enclosed to opysanvd.

The wastewater treatment subsidiary includes a receiving tank I, into which the inlet pipe 2 is connected. In the receiving tank I, there is a Gedro left torus 3, which is a cylindrical structure consisting of a nozzle, a dyff-pattern and a slot in the gedro-elevator body for suction CT04f- Hx water. The inlet of the hydroelevatsra 3 is connected by a pipe 4 to the outlet of the pressure tank 5, and a pipe 6 is connected to the outlet of the hydraulic elevator 3, connecting it to the flotation chamber 7 of the flotator 8 of the first stage. To the input p of the upstream tank 5 is connected to its pressure

line 9 Fa с с 10, having B of its bypass line Easctor II. In the chamber 12 of the separation of the phydotator 8 of the first stage there is a drain device 13 connected by a pipe 14 to a daily capacity of 15, to the bottom of which a suction pump TO is connected through a pipe 16. To the intermediate tank 15 is connected by overflow pipe 17, wound up in the receiving tank 17. In the intermediate tank 15 there is also a pipe 18 for periodic removal of accumulated sediment. In the flotator 8 of the first stage there is a slurry pocket 19.

The composition | | of the lotion installation includes the Flotator 20 second CTpiBFJH, including a flotation chamber 21, 22 separaEI, a slag device 23 and slurry karma 24. We will put flotation chamber 21 into the chamber 21 (we will put pipeline 25 connecting it to the pressure head outlet) g : boom 5. In the pipeline 25, the ejector 26 is mounted. To the slave device 23 of the flotator 20, the outlet pipe 27 of the flap cap installation is connected. Flotator; s 8 and 20 are equipped with sludge removal mechanisms 28 and 29. In the bottoms of the sinkers 8 and 20, drain pipelines 30 and 31 are installed for periodic removal of sludge. To the tank 5 is connected and air 32, connecting it to the flotation chamber 7 of the flotator 8.

Fleet installation works as follows. Previously, before starting work, the capacities of flotators 8 .P 20 pump 10 must be protected by water. Directly operating mode 10 takes water through line 16 from a field: weft capacity 15. Ejector II bypasses the suction lines 10 and atmospheric air is sucked in. In tank 5, there is a passage of 1 t of it growing in water under pressure. For wanopMHi, the aroma reserve 5 is divided: part g is sent through the kernel to the elevator 3 via pipeline 6 to the flotation chamber 7 of the flotator 8 of the first stage, and the other part through pipeline 25 through the exciter 23 E chamber 21 of the flotator 20 of the second stage. Tactam o6pa30iv, asos 10 operates on water that has undergone a partial purification E of the first stage of the fleet.

In the hydraulic elevator 3, there is a suction of fresh waste water entering through the inlet pipe 2 into the receiving tank I, II throttled from the water pump from the maintenance pump. eat, .. sll air bubbles, which are formed predominantly on the surface of liquid polluting particles. The liquid entering the flotation chamber 7 of the flotator 8 of the first stage is subjected to a single flotation axis, and in the separation chamber 12, netH is separated with contaminants (flotation sludge). In addition, the fluotator 8 is iden- tical; it preaches implicit oxidation of Rastorene-organic oxygen in the air. And alogical processes proceed in the flotator 20 of the second stage.

After separation in the chamber 12, the clarified liquid through the device 13 is discharged through the drain 14 into the intermediate tank 15 and then through the pipeline 16 to the “pump 10.

Having cleaned the fluid from the second stage flotator 20, through an connected device 23, the outlet pipe 27 flows out of the installation.

Accumulated on the surface of the water in 12 and 22 separators of flotators 8 and 20 in the slots of the dying place with fur blades 3.

The access control process of i iioTauEa is carried out using .fioiv: sTpa and an ad 32 with an edge.

During reactive wastewater treatment, the coagulant is introduced into the primary and secondary ViKocTb I, and the slag la.t through the ejector 26.

The pre-seeded utility model makes it possible to simplify the co-construction of U1. INCREASE the operational reliability of the flotation unit by 7 failures, as compared with the prototype; one single unit with preserving all the focal characteristics is outdated.

Head of Patent Bureau I. Sobolev

5h

Claims (2)

1. Flotation installation for wastewater treatment, including flotators of the first and second stages, each of which contains a slurry pocket and a drain device, a pressure tank connected to a pump having a bypass line with an ejector, inlet and outlet pipelines, characterized in that it is equipped the receiving tank and the intermediate tank connected to the drain device of the flotator of the first stage and the suction line of the pump, the outlet of the pressure tank is connected by a pipe to the ejector with a flotator of the second stage and dstvom hydraulic elevator, located in a receptacle, with the first stage skimmer, the inlet conduit is wound into the receptacle. 2. Installation according to claim 1, characterized in that the outlet pipe is connected to the drain device of the second stage flotator.