CN206645885U - Aerobic particle mud microorganism fungus kind cultivation reactor - Google Patents
Aerobic particle mud microorganism fungus kind cultivation reactor Download PDFInfo
- Publication number
- CN206645885U CN206645885U CN201720288986.6U CN201720288986U CN206645885U CN 206645885 U CN206645885 U CN 206645885U CN 201720288986 U CN201720288986 U CN 201720288986U CN 206645885 U CN206645885 U CN 206645885U
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- Prior art keywords
- sludge settling
- reative cell
- connecting tube
- settling room
- room
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02W—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
- Y02W10/00—Technologies for wastewater treatment
- Y02W10/10—Biological treatment of water, waste water, or sewage
Abstract
The utility model belongs to technical field of sewage.The purpose of this utility model be to provide one kind can automatically-controlled continuous, the aerobic particle mud microorganism fungus kind cultivation reactor of the uninterrupted processing to waste water can be achieved.It includes reative cell and sludge settling room, and the bottom of sludge settling room is connected with reative cell bottom side of the wall by lower connecting tube, and the lower connection interface tube of reative cell is less than the lower connection interface tube of sludge settling room;The upper end of reative cell is connected by upper connecting tube with the upper end of sludge settling room;Sludge settling room lower end is provided with water inlet, water inlet current orientating reaction room.The utility model being capable of automatically-controlled continuous, without running water inlet phase, reaction phase, precipitation phase, draining spoil disposal phase and lay-up period according to this according to sequential, whole microbial cultivation process circular flow in reactor, reduce the manpower consumption of Discrete control, and the uninterrupted processing to waste water can be realized, is had the characteristics that simple in construction, reasonable in design and easy to use.
Description
Technical field
The utility model belongs to technical field of sewage, more particularly to a kind of aerobic particle mud culture apparatus.
Background technology
Compared to traditional bioremediation, aerobic granular sludge technology has biology densification, than great, sinking speed
Hurry up, microbial population diversity the features such as.Aerobic particle mud is typically in the sequence bioreactor with compared with larger ratio of height to diameter
(SBR) culture obtains in.SBR techniques are by operating operation by certain time sequential batch and being completed in single reactor complete
Portion operates and the handling process of running, including operation forms according to this in order by five stages:Water inlet phase, reaction phase, sink
Shallow lake phase, draining spoil disposal phase, lay-up period.This reactor uses intermittent duty mode, it is necessary to carry out manual control according to sequential, real
When monitor, whole process discontinuous, manipulation trouble.
Utility model content
The purpose of this utility model is overcome the deficiencies in the prior art, there is provided one kind can automatically-controlled continuous, can be real
The aerobic particle mud microorganism fungus kind cultivation reactor of the now uninterrupted processing to waste water.
In order to achieve the above object, a kind of aerobic particle mud microorganism fungus kind culture reaction designed by the utility model
Device, it includes reative cell and sludge settling room, and air inlet is arranged at reative cell bottom, and there is the opening communicated with the external world reative cell upper end;
The bottom of sludge settling chamber interior walls is higher than the bottom of reaction chamber wall, and the bottom of sludge settling room and reative cell bottom side of the wall pass through
Lower connecting tube connection, the lower connection interface tube of reative cell are less than the lower connection interface tube of sludge settling room;The upper end of reative cell leads to
The upper end that connecting tube is crossed with sludge settling room connects;The upper end of sludge settling room has the opening being in communication with the outside, in sludge
Exit in mud chamber positioned at upper connecting tube is provided with mud-water separation plate, the sludge settling room side wall above mud-water separation plate
It is provided with clear water output;Sludge settling room lower end is provided with water inlet, water inlet current orientating reaction room;In lower connecting tube or
Place is provided with mud discharging mouth in reative cell bottom side of the wall and below the outlet of lower connecting tube.
In order that between reative cell and sludge settling room formed water circulation and circulating effect it is more preferable, be located in reative cell
The exit of lower connecting tube sets baffle plate, and baffle plate tilts upward, and flows up the muddy water at lower connecting tube out;Baffle plate is with
Connecting tube exit distance is appropriate, it is ensured that the sludge from sludge settling room into reative cell will not block the outlet of lower connecting tube;
Preferably, the spacing in baffle plate and lower connecting tube exit is more than the outlet bore of lower connecting tube.
Circulated in order to facilitate muddy water between reative cell and sludge settling room, on coupled reaction room upper end and sludge settling room
The upper connecting tube at end can be horizontally disposed, preferably be obliquely installed, and the upper connecting tube outlet of sludge settling room is less than reaction
The upper connecting tube import of room.
Automatically controlled for the ease of realizing, Oxygen control device is set in air inlet, controls the intake of oxygen;Intaking
Mouth sets flow of inlet water control device, controls the addition of waste water;Reative cell is connected with MLSS or MLVSS devices, for monitoring
Microbial biomass in reative cell.
During aerobic particle mud microorganism fungus kind cultivation reactor work of the present utility model:Aerobic particle mud is placed in instead
Should interior, oxygen enters reative cell by reative cell bottom air inlet, pending waste water by sludge settling room lower end water inlet first
Into sludge settling room, reative cell and oxygen mix are then entered by lower connecting tube, gas and liquid are in the longitudinal direction of reative cell
Rotary motion is produced, the rotating Vortex of sludge in reative cell is driven, so as to promote the granulating of sludge, makes the microorganism in sludge
Strain is grown;When the mixture of mud, gas and water is rotated to reative cell upper end, gas is discharged by reative cell upper end open
Reactor, mud mixture then enter sludge settling room by upper connecting tube, realize that sludge sinks in the presence of mud-water separation plate
Form sediment and mud-water separation, clear water discharge reactor by the clear water output above mud-water separation plate, sludge sinks down into sludge settling room bottom
Culture microorganism further is continued cycling through with into reative cell with water inlet waste water behind portion, when microbial biomass reaches certain in reactor
After degree, unnecessary sludge is removed into reactor by mud discharging mouth.
Therefore, the utility model can automatically-controlled continuous, without running water inlet phase, the reaction phase, heavy according to this according to sequential
Shallow lake phase, draining spoil disposal phase and lay-up period, the circular flow in reactor of whole microbial cultivation process, reduce Discrete control
Manpower consumption, and the uninterrupted processing to waste water can be realized, have the characteristics that simple in construction, reasonable in design and easy to use.
Brief description of the drawings
Fig. 1 is structural representation of the present utility model.
Embodiment
The utility model will be further described below in conjunction with the accompanying drawings.
As shown in figure 1, a kind of aerobic particle mud microorganism fungus kind cultivation reactor of the present embodiment description, it includes anti-
Room 1 and sludge settling room 2 are answered, air inlet 3 is arranged at reative cell bottom, and there is the opening communicated with the external world reative cell upper end;Sludge settling
The bottom of room is higher than the bottom of reative cell, and the bottom of sludge settling room is connected with reative cell bottom side of the wall by lower connecting tube 4, instead
Answer the lower connection interface tube of room to be less than the lower connection interface tube of sludge settling room, the exit of lower connecting tube is located in reative cell
Baffle plate 5 is set, and baffle plate tilts upward, and the spacing in baffle plate and lower connecting tube exit is more than the outlet bore of lower connecting tube;Reaction
The upper end of room is connected by upper connecting tube 6 with the upper end of sludge settling room, and upper connecting tube is obliquely installed, and sludge settling room is upper
Connecting tube outlet is less than reative cell;The upper end of sludge settling room has the opening being in communication with the outside, and is located in sludge settling room
The exit of upper connecting tube is provided with mud-water separation plate 7, and clear water is provided with the sludge settling room side wall above mud-water separation plate
Outlet 8;Sludge settling room lower end is provided with water inlet 9, water inlet current orientating reaction room;In reative cell bottom side of the wall and under
Connecting tube outlet is provided with mud discharging mouth 10 at lower section;Oxygen control device 11 is set in air inlet, controls the intake of oxygen;Entering
The mouth of a river sets flow of inlet water control device 12, controls the addition of waste water;Reative cell is connected with MLSS or MLVSS devices 13, is used
Microbial biomass in monitoring reative cell.
Claims (6)
- A kind of 1. aerobic particle mud microorganism fungus kind cultivation reactor, it is characterised in that:Including reative cell and sludge settling room, Air inlet is arranged at reative cell bottom, and there is the opening communicated with the external world reative cell upper end;The bottom of sludge settling chamber interior walls is higher than reaction The bottom of chamber interior walls, the bottom of sludge settling room are connected with reative cell bottom side of the wall by lower connecting tube, the lower connection of reative cell Interface tube is less than the lower connection interface tube of sludge settling room;The upper end of reative cell passes through upper connecting tube and the upper end of sludge settling room Connection;The upper end of sludge settling room has the opening being in communication with the outside, and the exit of upper connecting tube is located in sludge settling room Mud-water separation plate is provided with, clear water output is provided with the sludge settling room side wall above mud-water separation plate;Under sludge settling room End is provided with water inlet, water inlet current orientating reaction room;In lower connecting tube or in reative cell bottom side of the wall and in lower company Adapter outlet is provided with mud discharging mouth at lower section.
- A kind of 2. aerobic particle mud microorganism fungus kind cultivation reactor according to claim 1, it is characterised in that:Anti- Indoor baffle plate should be set positioned at the exit of lower connecting tube, baffle plate tilts upward, and baffle plate has spacing with lower connecting tube exit.
- A kind of 3. aerobic particle mud microorganism fungus kind cultivation reactor according to claim 2, it is characterised in that:Baffle plate It is more than the outlet bore of lower connecting tube with the spacing in lower connecting tube exit.
- A kind of 4. aerobic particle mud microorganism fungus kind cultivation reactor according to claim 1, it is characterised in that:Connection The upper connecting tube of reative cell upper end and sludge settling room upper end is horizontally disposed.
- A kind of 5. aerobic particle mud microorganism fungus kind cultivation reactor according to claim 1, it is characterised in that:Connection The upper connecting tube of reative cell upper end and sludge settling room upper end is is obliquely installed, and the upper connecting tube outlet of sludge settling room is less than The upper connecting tube import of reative cell.
- A kind of 6. aerobic particle mud microorganism fungus kind cultivation reactor according to claim 1, it is characterised in that:Entering Gas port sets Oxygen control device, sets flow of inlet water control device in water inlet, reative cell connects with MLSS or MLVSS devices Connect.
Priority Applications (1)
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CN201720288986.6U CN206645885U (en) | 2017-03-23 | 2017-03-23 | Aerobic particle mud microorganism fungus kind cultivation reactor |
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CN201720288986.6U CN206645885U (en) | 2017-03-23 | 2017-03-23 | Aerobic particle mud microorganism fungus kind cultivation reactor |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106865755A (en) * | 2017-03-23 | 2017-06-20 | 博瑞德(南京)净化技术有限公司 | Aerobic particle mud microorganism fungus kind cultivation reactor |
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2017
- 2017-03-23 CN CN201720288986.6U patent/CN206645885U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106865755A (en) * | 2017-03-23 | 2017-06-20 | 博瑞德(南京)净化技术有限公司 | Aerobic particle mud microorganism fungus kind cultivation reactor |
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CP01 | Change in the name or title of a patent holder |
Address after: 211500, -155, No. 168, Tai Chi Road, Nanjing chemical industry park, Liuhe, Jiangsu Patentee after: Bored environmental group Limited by Share Ltd Address before: 211500, -155, No. 168, Tai Chi Road, Nanjing chemical industry park, Liuhe, Jiangsu Patentee before: Bored (Nanjing) purification technology Limited by Share Ltd |