CN212559883U - NCP integrated efficient sewage purification treatment equipment - Google Patents

Abstract

The utility model discloses a high-efficient purification sewage treatment of NCP integration is equipped, including handling the case, it includes SBR biochemical district, MBR membrane fine filtration district and CLO to handle the case₂The sewage is led into the SBR biochemical region through the water inlet pipe, the biological filler and oxygen region in the SBR biochemical region is in full contact with the active sludge, harmful bacteria are reduced by beneficial bacteria, the sewage is purified, the purified water is led into the MBR membrane fine filtering region through the water pipe I, the active sludge and macromolecular organic substances are intercepted by a membrane component in the MBR membrane fine filtering region, the sewage is purified more finely, and the sewage is subjected to fine filtering by an MBR membraneThe water after zone treatment is led into the CLO through a first diversion pipe and a second diversion pipe₂Sterile field using CLO₂The chlorine dioxide bed bacteria with the concentration of 0.5-1 mg/L in the disinfection area kill NCP new coronavirus, thereby achieving the purpose of disinfection and sterilization.

Description

NCP integrated efficient sewage purification treatment equipment

Technical Field

The utility model belongs to the technical field of sewage treatment, specifically high-efficient purification sewage treatment of NCP integration is equipped.

Background

The sewage treatment refers to a purification process for treating sewage to reach a certain water body or meet the requirement of reuse, people's life and various industrial productions in cities can generate a large amount of sewage, and if the sewage is directly discharged without being treated, the environment can be seriously polluted.

Particularly under the influence of the current novel coronavirus pneumonia (NCP-NovelCoronavir pneumoconia), the method is particularly important for treating sewage, can effectively avoid the spread of the novel coronavirus pneumonia, and has great application and use values.

SUMMERY OF THE UTILITY MODEL

With solve the problem that proposes in the above-mentioned background art, an object of the utility model is to provide a NCP integration high efficiency purification sewage treatment equipment, with sewage through the leading-in SBR biochemical district of inlet tube, carry out abundant contact through biofilm carrier facultative anaerobic zone in the SBR biochemical district and activated sludge, utilize beneficial bacterium to subdue harmful bacterium, make sewage obtain purifying, then water after will purifying leads to MBR membrane fine filtration district through water pipe one, utilize the membrane module in the MBR membrane fine filtration district to hold back activated sludge and macromolecular organic matter, make sewage obtain more meticulous purification (the external diameter is 0.9/1.9mm in the membrane silk, the aperture is 0.1mm, pure water flux is 100 ~ 500-10KPa, 25 ℃ MBR L/hr), water after will being handled through MBR membrane fine filtration district leads to CLO through honeycomb duct one and honeycomb duct two₂Sterile field using CLO₂Chlorine dioxide bed bacteria with the concentration of 0.5-1 mg/L in a disinfection area kill NCP new corona virus, an ultraviolet generator is arranged on a water outlet pipe, and cell components, particularly nucleic acid protoplasm protein and acid, are changed through ultraviolet radiation disinfection during water drainage, so that microbial virus is killed, the aim of disinfection and sterilization is fulfilled, and finally, the sewage stably reaches the standard.

In order to achieve the above object, the utility model provides a following technical scheme:

NCP integrated high-efficiency sewage purification treatment equipment comprises a treatment box and a treatment roomThe treatment box comprises an SBR biochemical area, an MBR membrane fine filtration area and a CLO₂The SBR biochemical region is communicated with the MBR membrane fine filtration region through a water pipe, a first flow guide pipe is arranged in the MBR membrane fine filtration region, and the CLO is₂A second diversion pipe is arranged in the disinfection area and is communicated with the second diversion pipe through a pipeline;

the device comprises an SBR biochemical region, a water inlet pipe, an aeration mechanism, a jet aerator and a jet aerator, wherein the SBR biochemical region is internally and fixedly provided with the water inlet pipe, the top end of the water inlet pipe penetrates through the top of the SBR biochemical region and is arranged outside the SBR biochemical region, the middle position in the SBR biochemical region is fixedly provided with biological fillers, the bottom surface in the SBR biochemical region is fixedly provided with the aeration mechanism, the aeration mechanism is fixedly connected with a first air inlet pipe, the top end of the first air inlet pipe penetrates through the top of the SBR biochemical region and is arranged outside the SBR biochemical region and is;

a water pipe is fixedly arranged on one side, which is abutted against the SBR biochemical region, in the MBR membrane fine filtering region, the top end of the water pipe penetrates through the SBR biochemical region and the side wall of the MBR membrane fine filtering region and is arranged in the SBR biochemical region, a membrane assembly is fixedly arranged in the MBR membrane fine filtering region through a membrane assembly mounting frame, a top pipeline of the membrane assembly is fixedly connected with the bottom end of a flow guide pipe, and the top end of the flow guide pipe I penetrates through the top end of the MBR membrane fine filtering region and is arranged outside the MBR membrane fine filtering region;

the CLO₂A second diversion pipe is fixedly arranged inside the disinfection area, and the top end of the second diversion pipe penetrates through the CLO₂The top of the disinfection area is arranged at the CLO₂Outside of the sterile field, the CLO₂A plurality of baffle plates are vertically arranged in the disinfection area, and the CLO₂A water outlet pipe is arranged at the top of one side of the disinfection area far away from the MBR membrane fine filtration area, the water outlet pipe penetrates through the side wall of the CLO disinfection area, and the water outlet pipe is positioned at the CLO membrane fine filtration area₂An ultraviolet generator is arranged at one end inside the disinfection area.

As a further aspect of the present invention: the specification of the treatment box is 4500 × 1500 × 2250mm, and the SBR biochemical area, the MBR membrane fine filtering area and the CLO membrane fine filtering area are arranged in sequence₂The size of the sterile field was all 1500 x 2250 mm.

As a further aspect of the present invention: the aeration mechanism is arranged by a plurality of aeration pipes in a criss-cross mode and is tiled on the bottom surface inside the SBR biochemical area.

As a further aspect of the present invention: the interior of the MBR membrane fine filtration area is provided with a back flushing pipe, the back flushing pipe is located under the membrane assembly in the MBR membrane fine filtration area, the back flushing pipe is connected with an air inlet pipe II, and the top end of the air inlet pipe II penetrates through the top of the MBR membrane fine filtration area and is arranged outside the MBR membrane fine filtration area.

As a further aspect of the present invention: the membrane component is a PVDF membrane, the inner diameter and the outer diameter of the membrane filament are 0.9/1.9mm, the aperture is 0.1mm, the pure water flux is 100-500-10 KPa, and the temperature is 25 ℃ L/hr.

As a further aspect of the present invention: the second flow guide pipe is also externally connected with a CLO₂Lead-in line of the CLO₂CLO in sterile field₂The concentration of (b) is 0.5-1 mg/L.

As a further aspect of the present invention: the baffle plates are arranged in a plurality, and the baffle plates are arranged in the CLO disinfection area at equal intervals.

Compared with the prior art, the beneficial effects of the utility model are that:

1. leading sewage into an SBR (sequencing batch reactor) biochemical area through a water inlet pipe, fully contacting with activated sludge through a biological filler and oxygen area in the SBR biochemical area, reducing harmful bacteria by using beneficial bacteria, purifying the sewage, leading purified water into an MBR membrane fine filtering area through a water pipe I, intercepting the activated sludge and macromolecular organic substances by using a membrane assembly in the MBR membrane fine filtering area, leading the sewage to be more finely purified, leading the water treated in the MBR membrane fine filtering area into CLO through a flow guide pipe I and a flow guide pipe II₂Sterile field using CLO₂Chlorine dioxide bed bacteria with the concentration of 0.5-1 mg/L in a disinfection area kill NCP new corona viruses, an ultraviolet generator is arranged on a water outlet pipe, and cell components, particularly nucleic acid protoplasm protein and acid, are changed through ultraviolet radiation disinfection during water drainage, so that microbial viruses die, the aim of disinfection and sterilization is fulfilled, and finally, sewage stably reaches the standard;

2. the special virus can be killed by professional technology and can be used for treating daily life wastewater;

3. the emergency treatment device can be used for emergency treatment, is small in size, can be carried on a vehicle, can be operated when needed by reaching a destination through transportation, and is convenient and quick;

4. the fixed-point use is more convenient, the automatic control can be realized, the starting and stopping are automatic, the water quality can be remotely controlled and detected, and the discharge reaching the standard is stable;

5. the process is advanced, the purification treatment is fine and efficient, the manufacture is simple and convenient, and the economical efficiency of construction and use is good;

6. and the device is also used for a buried type, so that more occupied land can be reduced.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic view of the front structure of an NCP integrated high-efficiency purification sewage treatment device.

FIG. 2 is a schematic structural view of an aeration mechanism in the NCP integrated high-efficiency purification sewage treatment equipment.

In the figure: the device comprises a treatment box 1, an SBR biochemical region 2, a water inlet pipe 201, biological fillers 202, an aeration mechanism 203, a first air inlet pipe 204, an MBR membrane fine filtration region 3, a water passing pipe 301, a membrane module 302, a first draft pipe 303, a second air inlet pipe 304, a back flushing pipe 305, a membrane module mounting rack 306 and a CLO₂A disinfection area 4, a second draft tube 401, a baffle plate 402, a water outlet pipe 403 and an ultraviolet generator 404.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-2, in the embodiment of the present invention, the NCP integrated high-efficiency sewage purification treatment device comprises a treatment box 1, the above-mentionedThe treatment box 1 comprises an SBR biochemical area 2, an MBR membrane fine filtration area 3 and a CLO₂A disinfection area 4, the SBR biochemical area 2 is communicated with the MBR membrane fine filtration area 3 through a water pipe 301, a draft tube 303 is arranged in the MBR membrane fine filtration area 3, and the CLO₂A second diversion pipe 401 is arranged in the disinfection area 4, and the first diversion pipe 303 is communicated with the second diversion pipe 401 through a pipeline.

The inside fixed inlet tube 201 that is provided with of SBR biochemical region 2, the top that the SBR biochemical region 2 was run through on the top of inlet tube 201 sets up in the outside of SBR biochemical region 2, the fixed biofilm carrier 202 that is provided with in inside intermediate position of SBR biochemical region 2, the fixed aeration mechanism 203 that is provided with on the inside bottom surface of SBR biochemical region 2, aeration mechanism 203 and intake pipe 204 fixed connection, the top that the SBR biochemical region 2 was run through on the top of intake pipe 204 sets up in the outside of SBR biochemical region 2 and is connected with the efflux aerator output, with sewage through the leading-in SBR biochemical region 2 of inlet tube 201, carry out abundant contact through biofilm carrier 202 facultative aerobe and activated sludge in SBR biochemical region 2, utilize beneficial bacterium to subdue harmful bacterium, make sewage obtain purifying.

The fixed pipe 301 that is provided with in one side that the district 3 was strained to MBR membrane essence, SBR membrane essence district 2 and the regional 3 lateral wall setting of MBR membrane essence are strained to the top of pipe 301 inside SBR biochemical district 2, the fixed membrane module 302 that is provided with through membrane module mounting bracket 306 in the inside of MBR membrane essence district 3, membrane module 302 top pipeline and a 303 bottom fixed connection of honeycomb duct, 3 tops of 3 of district 3 are strained to the MBR membrane essence are run through on the top of a 303 honeycomb duct and set up in the outside of district 3 is strained to MBR membrane essence, utilize the membrane module 302 in the district 3 is strained to MBR membrane essence to hold back activated sludge and macromolecular organic matter, make sewage obtain more meticulous purification.

The CLO₂A second diversion pipe 401 is fixedly arranged inside the disinfection area 4, and the top end of the second diversion pipe 401 penetrates through the CLO₂The top of the disinfection area 4 is arranged at the CLO₂Outside of the sterile field 4, the CLO₂A plurality of baffle plates 402 are vertically arranged in the disinfection area 4, and the CLO₂A water outlet pipe 403 is arranged at the top of the side of the disinfection area 4 far away from the MBR membrane fine filtration area 3, and the water outlet pipe 403Through CLO₂The side wall of the disinfection area 4 is arranged, and the water outlet pipe 403 is positioned on the CLO₂An ultraviolet generator 404 is arranged at one end inside the disinfection area 4, and water treated by the MBR membrane fine filtration area 3 is guided into the CLO through a first flow guide pipe 303 and a second flow guide pipe 304₂Sterile field 4, using CLO₂The chlorine dioxide bed bacteria with the concentration of 0.5-1 mg/L in the disinfection area 4 kills NCP new corona virus, an ultraviolet generator 404 is arranged on a water outlet pipe 403, and cell components, particularly nucleic acid protoplasm protein and acid, are changed through ultraviolet radiation disinfection during water drainage, so that microbial virus is killed, and the aim of disinfection and sterilization is achieved.

The specification of the treatment box 1 is 4500-1500-2250 mm, and the SBR biochemical area 2, the MBR membrane fine filtration area 3 and the CLO membrane fine filtration area₂The size of the sterile field 4 is all 1500 x 2250 mm.

Aeration mechanism 203 is set up by many aeration pipes vertically and horizontally staggered to the tiling is on SBR biochemical district 2 inside bottom surface, improves the aeration rate of sewage.

A back flushing pipe 305 is arranged inside the MBR membrane fine filtering area 3, the back flushing pipe 305 is positioned under the membrane module 302 in the MBR membrane fine filtering area 3, the back flushing pipe 305 is connected with a second air inlet pipe 304, the top end of the second air inlet pipe 304 penetrates through the top of the MBR membrane fine filtering area 3 and is arranged outside the MBR membrane fine filtering area 3, the membrane module 302 is back flushed, and the use efficiency of the membrane module 302 is improved.

The membrane component 302 is a PVDF membrane, the inner diameter and the outer diameter of the membrane filament are 0.9/1.9mm, the aperture is 0.1mm, the pure water flux is 100-500-10 KPa, and the temperature is 25 ℃ L/hr.

The second honeycomb duct 401 is also externally connected with a CLO₂Lead-in line of the CLO₂CLO in sterile zone 4₂The concentration of (b) is 0.5-1 mg/L.

The baffle plate 402 is provided with a plurality of baffle plates 402, and the plurality of baffle plates 402 are arranged at CLO₂The disinfection areas 4 are arranged at equal intervals.

The working principle is as follows: introducing sewage into SBR biochemical region 2 via water inlet pipe 201, contacting with activated sludge via biological filler 202 and aerobic region in SBR biochemical region 2, eliminating harmful bacteria with beneficial bacteria to purify sewage, and purifying waterLeading the wastewater into an MBR membrane fine filtration area 3 through a first water pipe 301, intercepting activated sludge and macromolecular organic substances by utilizing a membrane assembly 302 in the MBR membrane fine filtration area 3 to purify the wastewater more finely (the inner and outer diameters of a membrane filament are 0.9/1.9mm, the aperture is 0.1mm, the pure water flux is 100-500-10 KPa, and the temperature is 25 ℃ L/hr), leading the water treated by the MBR membrane fine filtration area 3 into CLO through a first draft tube 303 and a second draft tube 304₂Sterile field 4, using CLO₂Chlorine dioxide bed bacteria with the concentration of 0.5-1 mg/L in the disinfection area 4 kills NCP new corona virus, an ultraviolet generator 404 is arranged on a water outlet pipe 403, cell components, particularly nucleic acid protoplasm protein and acid, are changed through ultraviolet radiation disinfection during water drainage, so that microbial virus is killed, the aim of disinfection and sterilization is achieved, and finally, sewage can reach the standard stably.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (7)

1. NCP integrated efficient purification sewage treatment equipment is characterized in that: comprises a treatment box (1), wherein the treatment box (1) comprises an SBR biochemical area (2), an MBR membrane fine filtration area (3) and a CLO₂A disinfection area (4), SBR biochemical area (2) and MBR membrane fine filtration area (3) are communicated through a water pipe (301), a draft tube I (303) is arranged in MBR membrane fine filtration area (3), CLO₂A second diversion pipe (401) is arranged in the disinfection area (4), and the first diversion pipe (303) is communicated with the second diversion pipe (401) through a pipeline;

   the water inlet pipe (201) is fixedly arranged inside the SBR biochemical region (2), the top end of the water inlet pipe (201) penetrates through the top of the SBR biochemical region (2) and is arranged outside the SBR biochemical region (2), a biological filler (202) is fixedly arranged in the middle of the inside of the SBR biochemical region (2), an aeration mechanism (203) is fixedly arranged on the bottom surface of the inside of the SBR biochemical region (2), the aeration mechanism (203) is fixedly connected with a first air inlet pipe (204), and the top end of the first air inlet pipe (204) penetrates through the top of the SBR biochemical region (2) and is arranged outside the SBR biochemical region (2) and is connected with the output end of the jet aerator;

   a water passing pipe (301) is fixedly arranged on one side, which is abutted against the SBR biochemical region (2), of the interior of the MBR membrane fine filtering region (3), the top end of the water passing pipe (301) penetrates through the SBR biochemical region (2) and the side wall of the MBR membrane fine filtering region (3) and is arranged in the SBR biochemical region (2), a membrane assembly (302) is fixedly arranged in the MBR membrane fine filtering region (3) through a membrane assembly mounting frame (306), a top pipeline of the membrane assembly (302) is fixedly connected with the bottom end of a first draft tube (303), and the top end of the first draft tube (303) penetrates through the top end of the MBR membrane fine filtering region (3) and is arranged outside the MBR membrane fine filtering region (3);

   the CLO₂A second diversion pipe (401) is fixedly arranged inside the disinfection area (4), and the top end of the second diversion pipe (401) penetrates through the CLO₂The top of the disinfection area (4) is arranged on the CLO₂Outside the sterile zone (4), the CLO₂A plurality of baffle plates (402) are vertically arranged in the disinfection area (4), and the CLO₂A water outlet pipe (403) is arranged at the top position of one side of the disinfection area (4) far away from the MBR membrane fine filtration area (3), and the water outlet pipe (403) penetrates through the CLO₂The side wall of the disinfection area (4) is arranged, and the water outlet pipe (403) is positioned on the CLO₂An ultraviolet generator (404) is arranged at one end inside the disinfection area (4).
2. 2. The NCP integrated high-efficiency purification sewage treatment plant according to claim 1, characterized in that the specification of the treatment tank (1) is 4500 x 1500 x 2250mm, the SBR biochemical zone (2), the MBR membrane fine filtration zone (3) and the CLO₂The size of the disinfection zone (4) is 1500 x 2250 mm.
3. 3. The NCP integrated high-efficiency purification sewage treatment equipment according to claim 1, wherein the aeration mechanism (203) is formed by a plurality of aeration pipes which are arranged in a criss-cross manner and are flatly laid on the inner bottom surface of the SBR biochemical region (2).
4. 4. The NCP integrated high-efficiency purification sewage treatment equipment according to claim 1, wherein a back-flushing pipe (305) is arranged inside the MBR membrane fine filtering area (3), the back-flushing pipe (305) is positioned right below the membrane module (302) in the MBR membrane fine filtering area (3), a second air inlet pipe (304) is connected to the back-flushing pipe (305), and the top end of the second air inlet pipe (304) penetrates through the top of the MBR membrane fine filtering area (3) and is arranged outside the MBR membrane fine filtering area (3).
5. 5. The NCP integrated high-efficiency sewage purification treatment equipment according to claim 1, wherein the membrane module (302) is a PVDF membrane, the inner diameter and the outer diameter of membrane filaments are 0.9/1.9mm, the pore diameter is 0.1mm, the pure water flux is 100-500-10 KPa, and the temperature is 25 ℃ L/hr.
6. 6. The NCP integrated efficient purification sewage treatment equipment according to claim 1, wherein the second diversion pipe (401) is further externally connected with a CLO₂Lead-in line of the CLO₂CLO in the sterile zone (4)₂The concentration of (b) is 0.5-1 mg/L.
7. 7. The NCP integrated high-efficiency purification sewage treatment plant according to claim 1, wherein the baffle plate (402) is provided in plurality, and the plurality of baffle plates (402) are arranged at CLO₂The disinfection areas (4) are arranged at equal intervals.

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