RU2016111736A

RU2016111736A - SYSTEM AND METHOD FOR SEWAGE TREATMENT USING POWDER ACTIVATED CARBON

Info

Publication number: RU2016111736A
Application number: RU2016111736A
Authority: RU
Inventors: Луцзянь ЛЮ; Жун СЮЙ; Чжунвэнь НЕ; Цзюнь ДУН; Юн МИН; Лэ ДЭН; Лянцзюнь У
Original assignee: Хубэй Цзюньцзи Уотер Тритмент Ко., Лтд
Priority date: 2014-01-22
Filing date: 2015-03-20
Publication date: 2017-10-02
Also published as: ZA201506695B; RU2636497C2; CN103739104A; WO2015110091A1; CN103739104B

Claims

1. System for wastewater treatment using powdered activated carbon, characterized in that it contains a device for adding coal, a device for mixing and processing, a device for separating water and coal, a device for backwashing, a control system and a power module; moreover

the device for adding coal contains a feed hopper (101), an electric motor (102) with an adjustable speed, a screw conveyor (103), a fixed casing (104) and a rubber sleeve (105); while the fixed casing (104) is mounted on the screw conveyor (103) and encloses it, while one end of the rubber sleeve (105) is connected to the screw conveyor (103), and the other end of the rubber sleeve (105) is extended to the device for mixing and processing; the discharge opening of the feed hopper (101) is connected to a screw conveyor (103); the rotation axis of the electric motor (102) with an adjustable speed is connected to the screw conveyor (103) for driving the screw conveyor (103) into rotation, feeding material in the direction of the mixing and processing device;

the device for mixing and processing comprises a container (201) for mixing and mixing, an electric motor (202) of the mixer and a paddle mixer (203); moreover, the electric motor (202) of the mixer is mounted on the tank (201) for mixing and mixing; the axis of rotation of the electric motor (202) of the mixer passes to the tank (201) for mixing and mixing; a paddle mixer (203) is fixed on the axis of rotation of an electric motor (202) with a mixer for mixing the mixed suspension in the mixing tank (201) so as to ensure uniform mixing of water and coal;

the device for separating coal and water contains a cylindrical filter tank (301), a hollow microporous filter pipe (302), an electromagnetic valve (303) for supplying a device for separating coal and water, an electromagnetic valve (304) for discharging coal suspension, an electromagnetic valve (305 ) to release clean water; an inlet located in the upper part of the cylindrical filter tank (301), connected by means of an electromagnetic valve (303) for supplying the device for separating coal and water with the discharge opening of the container (201) located below for mixing and mixing; a hollow microporous filter tube (302) is placed in a cylindrical filter tank (301); the lower part of the cylindrical filter tank (301) is equipped with an exhaust pipe for coal suspension and a pipe for the release of clean water, respectively, and the specified discharge pipe for coal suspension and a pipe for water discharge are equipped with a solenoid valve (304) for releasing a coal suspension and an electromagnetic valve (305 ) for the release of clean water, respectively;

The backwash device contains an air compressor (401), a pump (402) for backwash, a tank (403) for backwash, a pressure sensor (404), a solenoid valve 405 for water backwash, a solenoid valve (406) for air and water backwash and flushing nozzle; an air compressor (401) is connected to the air inlet port of the tank (403) for backwash, a pump (402) for the backwash is connected to the water inlet of the tank (403) for backwash by means of an electromagnetic valve (405) for backwash water; the outlet pipe of the tank (403) for backwashing is connected to the washing nozzle by means of an electromagnetic valve (406) for water and air backwash with water; the washing nozzle is placed in a cylindrical filter tank (301) with the possibility of moving up and down in a hollow microporous filter tube (302); and

the control system is connected to the power module; the control system is connected to an electric motor (102) with an adjustable speed, an electric motor (202) of the agitator, an electromagnetic valve (303) to power the device for separating coal and water, an electromagnetic valve (304) to release a coal suspension, an electromagnetic valve (305) for the release of clean water, a feed pump (306), an air compressor (401), a pump (402) for backwash, a solenoid valve (405) for water backwash, a solenoid valve (406) for water and air backwash, and a nozzle for controlling the operation of an electric motor (102) with an adjustable speed, an electric motor (202) of a stirrer, an electromagnetic valve (303) for supplying a device for separating coal and water, an electromagnetic valve (304) for discharging a coal suspension, an electromagnetic valve (305 ) for the release of clean water, an air compressor (401), a pump (402) for backwash, a solenoid valve (405) for water backwash, a solenoid valve (406) for water and air backwash and rinse sunki, respectively.

2. A system for treating wastewater using activated carbon powder according to claim 1, wherein the device for separating water and coal further comprises a feed pump (306) connected to the control system and installed near the lower outlet of the tank (201) for mixing and mixing and designed to transport a mixed suspension of coal and water in a device for separating coal and water.

3. A system for treating wastewater using activated carbon powder according to claim 1, wherein the backwash device further comprises a pressure sensor (404) connected to a control system mounted on a backwash tank (403) and used to determine the difference pressure between the pressure of the inlet water and the pressure of the discharge of water from the device for the separation of coal and water.

4. A wastewater treatment system using powdered activated carbon according to claim 1, wherein at least one set of hollow microporous filter tubes (302) is located around the circumference in a cylindrical filter tank (301).

5. A system for treating wastewater using activated carbon powder according to claim 4, wherein the hollow microporous filter pipe (302) is a polyamide (PA) pipe.

6. A wastewater treatment system using activated carbon powder according to claim 4, wherein the hollow microporous filter tube (302) is a stainless steel pipe.

7. System for wastewater treatment using powdered activated carbon according to any one of paragraphs. 1, 4, 5 or 6, in which the hollow microporous filter tube (302) is surrounded by a filter layer.

8. A system for treating wastewater using activated carbon powder according to claim 7, wherein the filter layer is a fine filter layer made of fused polyethylene fibers.

9. A system for treating wastewater using activated carbon powder according to claim 1, wherein the rubber sleeve (105) is a flexible rubber sleeve reinforced inside with steel wire.

10. A method of wastewater treatment using a wastewater treatment system using powdered activated carbon according to claim 1, comprising the following steps:

stage 1: pouring wastewater into the mixing and processing device and simultaneously adding powdered activated carbon to the mixing and processing device using the coal adding device;

stage 2: turning off the device for adding coal and turning on the electric motor (202) of the mixer in order to actuate the paddle mixer (203) to mix the powdered activated carbon and wastewater so that they are mixed evenly;

transportation by means of a feed pump (306) of a suspension of mixed coal and water to a device for separating coal and water to separate coal from water, retention and separation of the suspension of mixed coal and water when passing through the outer diameter of a hollow microporous filter pipe (302), flowing water through the micropores of the wall of the hollow microporous filter pipe (302), the flow of water along the inner diameter of the hollow microporous filter pipe and then its removal, while the activated carbon powder is retained in the cile undricated filter reservoir (301);

stage 4: turning on the backwash device and then automatically activating the backwash device to backwash the hollow microporous filter pipe (302) in accordance with the difference between the water inlet pressure and the water discharge pressure from the coal and water separation device determined by pressure sensor (404);

stage 5: turning off the device for backwashing and turning on the electromagnetic valve (304) to release the coal suspension to remove the coal suspension and then dehydrate, dry and reactivate the coal suspension.

11. The method of wastewater treatment according to p. 10, in which when implementing stage 1, including pouring wastewater into the device for mixing and processing and at the same time adding powdered activated carbon to the device for mixing and processing using the device for adding coal, the distance between the lower the outlet of the rubber sleeve and the liquid level are maintained in the range of 0.5 to 0.8 m, and the flow rate of the wastewater is maintained in the range of 0.3 m / s to 0.6 m / s.

12. The method of wastewater treatment according to claim 10, wherein in the implementation of stage 3 of separation of water and coal, the ratio of the filtration area and the effective volume of the hollow microporous filter pipe (302) is in the range from 0.3 to 0.9 m ² / m ³ .

13. The method of wastewater treatment according to claim 10, wherein during the backwash of the hollow microporous filter pipe (302) in step 3, the backwash pressure is from 0.06 to 0.09 MPa.

14. The method of wastewater treatment according to claim 10, in which when carrying out stage 5 of dehydration of the coal suspension, a frame filter press is used.