CN203976467U - A kind of ultra-filtration membrane aeration board - Google Patents
A kind of ultra-filtration membrane aeration board Download PDFInfo
- Publication number
- CN203976467U CN203976467U CN201420374496.4U CN201420374496U CN203976467U CN 203976467 U CN203976467 U CN 203976467U CN 201420374496 U CN201420374496 U CN 201420374496U CN 203976467 U CN203976467 U CN 203976467U
- Authority
- CN
- China
- Prior art keywords
- ultra
- filtration membrane
- glue
- aeration board
- pedestal
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Withdrawn - After Issue
Links
Classifications
-
- 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
Landscapes
- Separation Using Semi-Permeable Membranes (AREA)
Abstract
The utility model discloses a kind of ultra-filtration membrane aeration board.Aeration board bottom is provided with pedestal, after pedestal top-slitting, respectively at left side, central authorities and filling top, right side glue, main gel and end glue, lays ultra-filtration membrane after coagulation and is integrated.Main gel top, lower than pedestal top, is flooded and seals 75% of ultra-filtration membrane circumference.Glue top, top flushes with pedestal top, and ultra-filtration membrane initiating terminal is fixed.Ultra-filtration membrane initiating terminal is opened on the cloth air cavity in top glue, and cloth air cavity is connected with gas supply device by inlet pipe.End glue top flushes with pedestal top, and ultra-filtration membrane end is fixed and sealed.The utility model can be cut into air the ultramicro air bubble of 10 ~ 100nm, strengthens itself and the contacting of liquid phase main body, and improves gas-liquid mass transfer speed, improves the effective rate of utilization of gas.When significantly cutting down the actual air demand of biological treatment system, the intense impact that can also avoid high gas speed belt, improves system run all right and flexibility of operation, has good economy and environment benefit.
Description
Technical field
The utility model relates to a kind of aerating apparatus, relates in particular to a kind of ultra-filtration membrane aeration board.
Background technology
Aeration diffusion is one of core technology of sewage biological treatment system, its essence be exactly promote oxygen from gas phase the mass transfer to liquid phase.Oxygen is transferred to liquid phase from gas phase, need complete by the mobile gas-to-liquid contact interface that forms of fluid.Aerator is the key equipment of bearing aeration diffusion function, and its effect is the mass transfer that promotes oxygen.Current conventional gaseous fluid active movement type aerator, it is the upward movement of nationality by bubble, produces three-dimensional continuous gas-to-liquid contact face, and then completes the process that oxygen is transferred to liquid phase from gas phase.
According to mass transfer theory, the contact area of gas phase liquid phase is larger, and the probability that produces effective collision is just larger, and mass-transfer efficiency is just higher.Therefore, the quantity that gas is divided into vesicle is more, and the more, mass-transfer efficiency is also just higher for " bubble pellicle " area forming.According to hole diffusion principle, great hole produces how wide-aperture rill.Therefore, incite somebody to action to a certain extent, the size in aerator aperture has directly determined the efficiency of aeration diffusion.And current conventional aerator, its aperture is all larger, as fixing micro-hole aerator aperture is about 50 μ m, and mantle micro-hole aerator ≈ 100 μ m, its efficiency is on the low side to be understood that.
Ultrafiltration is a kind of taking screening as separation principle, membrane sepn process taking pressure as impellent, filtering accuracy, within the scope of 0.005 ~ 0.01 μ m, can effectively be removed particulate, colloid, bacterium, thermal source and macromolecule organic matter in water, already in dirty field of waste water treatment widespread use.In numerous ultra-filtration membrane materials, with being most widely used of hollow cellulose film, also ripe.But hollow cellulose film is in the application of water treatment, be mainly to utilize a large amount of micropores on tube wall (aperture 0.01 μ m ~ 0.1 μ m) removes pollutent in water body.If this mould material is applied to aeration diffusion field, just can solve traditional aerator aperture excessive, the problem that rate of mass transfer is low.
Hollow cellulose film is applied to aeration diffusion field, there is good prospect.First, hollow cellulose film is produced and processing technology maturation, easily excellent but cheap hollow cellulose film.Secondly, utilize the nano level membrane pore size of hollow cellulose film, bubble is cut into the ultramicro air bubble of 10 nm ~ 100 nm, can effectively increase " bubble pellicle " area, promote that oxygen contacts with the effective of water, improve oxygen mass transfer speed and oxygen utilization rate, cut down the actual air demand of biological treatment system, reduce facility investment related to this in working cost.In addition, significantly cut down air demand, can also avoid the souring of atm number to active sludge, the stability of raising system operation and the handiness of operation, have good economy and environment benefit.
Summary of the invention
The utility model object is the defect that overcomes existing aerating apparatus, and a kind of ultra-filtration membrane aeration board is provided.
A kind of ultra-filtration membrane aeration board bottom is provided with pedestal, pedestal top is provided with fluting, respectively in fluting left side, central authorities and filling top, right side glue, main gel and end glue, in fluting, be equipped with tubular ultra-filtration membrane, main gel top is lower than pedestal top, main gel floods and seals 75% of ultra-filtration membrane circumference, glue top, top flushes with pedestal top, top glue is fixed ultra-filtration membrane initiating terminal, ultra-filtration membrane initiating terminal is opened on the cloth air cavity in top glue, cloth air cavity is connected with gas supply device by inlet pipe, end glue top flushes with pedestal top, end glue is fixed ultra-filtration membrane end seal.
Described aeration board is rectangular-shaped device, its length is 4:1 ~ 8:1 with the ratio of height, its width is 10:1 ~ 15:1 with the ratio of height, but its height must not be less than 10 mm, fluting is for rectangular-shaped, the length of fluting, width, height are (2 ~ 4) with the ratio of aeration board height: (8 ~ 12): (0.5 ~ 0.8): 1, but the height of fluting must not be less than 5 mm.
Described top glue, main gel and end glue three's length and the ratio of rectangular-shaped slotting length are followed successively by 1:1,1:1 and 1:1; The ratio of top glue, main gel and end glue three's width is 1:(10 ~ 15): 1, but the width of top glue and end glue is all not less than 10 mm; Top glue, main gel and end glue three's thickness is followed successively by 1:1,2:1 and 1:1 with the ratio of rectangular-shaped fluting height, but the thickness of main gel is not less than 2.5 mm.
Monomer external diameter 0.4 ~ 2.0 mm of described ultra-filtration membrane, internal diameter 0.3 ~ 1.4 mm, fenestra size 10 ~ 100 nm, the initiating terminal of ultra-filtration membrane and end end stretch into respectively in top glue and end glue, middle body embeds in main gel, ultra-filtration membrane monomer arrangement pitches is its external diameter 2 ~ 3 times, outermost ultra-filtration membrane monomer is 1.5 ~ 2.0 mm apart from the distance of fluting outer rim.
Described ultra-filtration membrane initiating terminal transverse section is immersed in top glue completely, end transverse section is immersed in end glue completely, in 75% submergence and main gel of central authorities' transverse section circumference, all the other 25% are exposed to outside main gel, the distance that ultra-filtration membrane initiating terminal stretches in top glue is 50% ~ 75% of top glue width, and the distance that ultra-filtration membrane end end stretches in end glue is 50% ~ 75% of end glue width.
Described top glue arranges rectangular-shaped cloth air cavity, to connect ultra-filtration membrane initiating terminal and inlet pipe, its length, width, height are followed successively by (2 ~ 3) with the ratio of aeration board height: 1,1:(4 ~ 5) and 1:(3 ~ 4), but its size should meet the requirement of holding all ultra-filtration membrane monomer ends, to complete its air distribution function.
Described inlet pipe is connected with cloth air cavity through pedestal, and inlet pipe external diameter is 2/3 ~ 3/4 of cloth air cavity height, and inlet pipe is stretched out 5 ~ 10 times that the length of base outer wall is its external diameter.
The described each structure compressive strength of top glue, main gel, end glue, ultra-filtration membrane, cloth air cavity and inlet pipe and the tolerance intensity of connection place thereof are all greater than 1.5 MPa.
Compared with existing aerating apparatus, the utlity model has obvious advantage: 1) hollow cellulose film is widely applied in water uf processing field, its production and processing technology maturation, easily acquisition and cheap, use it for aerating apparatus, there is very strong economy.2) gas can be cut into the ultramicro air bubble of 10 ~ 100 nm, strengthen itself and the contacting of liquid phase main body, improve gas-liquid mass transfer speed, improve the effective rate of utilization of gas, thereby significantly cut down actual air demand, reduce the facility investment expense and the operation working cost that bring thus.3) when cutting down the actual air demand of biological treatment system, also avoid the strong souring of atm number to active sludge, improved the stability of system operation and the handiness of operation, there is good economy and environment benefit.
Brief description of the drawings
Fig. 1 a is ultra-filtration membrane aeration board structure vertical view;
Fig. 1 b is ultra-filtration membrane aeration board structure front view;
Fig. 2 a is that ultra-filtration membrane aeration board structure A is to sectional view;
Fig. 2 b is that ultra-filtration membrane aeration board structure B is to sectional view;
Fig. 3 is that the ultra-filtration membrane of ultra-filtration membrane aeration board is laid schematic diagram.
In figure: pedestal 1, top glue 2, main gel 3, end glue 4, ultra-filtration membrane 5, cloth air cavity 6, inlet pipe 7.
Embodiment
As shown in Fig. 1 a, 1b, 2a, 2b, a kind of ultra-filtration membrane aeration board bottom is provided with pedestal 1, after pedestal 1 top-slitting, respectively at left side, central authorities and filling top, right side glue 2, main gel 3 and end glue 4, lays ultra-filtration membrane 5 after coagulations and is integrated.Main gel 3 tops, lower than pedestal 1 top, are flooded and seal 75% of ultra-filtration membrane 5 circumference.Glue 2 tops in top flush with pedestal 1 top, and ultra-filtration membrane 5 initiating terminals are fixed.Ultra-filtration membrane 5 initiating terminals are opened on the cloth air cavity 6 in top glue 2, and cloth air cavity 6 is connected with gas supply device by inlet pipe 7.End glue 4 tops flush with pedestal 1 top, and ultra-filtration membrane 5 ends are fixed and sealed.
Described a kind of ultra-filtration membrane aeration board is rectangular-shaped device, and its length is 4:1 ~ 8:1 with the ratio of height, and its width is 10:1 ~ 15:1 with the ratio of height, but its height must not be less than 10 mm.Aeration board center of top is offered rectangular-shaped groove, and the length of groove, width, height are (2 ~ 4) with the ratio of aeration board height: (8 ~ 12): (0.5 ~ 0.8): 1, but the height of groove must not be less than 5 mm.Top glue 2, main gel 3 and end glue 4 threes' length and the ratio of rectangular-shaped slot length are followed successively by 1:1,1:1 and 1:1; The ratio of top glue 2, main gel 3 and end glue 4 threes' width is 1:(10 ~ 15): 1, but the width of top glue 2 and end glue 4 is all not less than 10 mm; Top glue 2, main gel 3 and end glue 4 threes' thickness and the ratio of rectangular-shaped groove height are followed successively by 1:1,2:1 and 1:1, but the thickness of main gel 3 is not less than 2.5 mm.
Monomer external diameter 0.4 ~ 2.0 mm of ultra-filtration membrane 5, internal diameter 0.3 ~ 1.4 mm, fenestra size 10 ~ 100 nm.Initiating terminal and end end go deep into respectively in top glue 2 and end glue 4, and middle body embeds in main gel 3.Ultra-filtration membrane 5 monomer arrangement pitches are its external diameter 2 ~ 3 times, outermost ultra-filtration membrane 5 monomers are 1.5 ~ 2.0 mm apart from the distance of groove outer rim.Ultra-filtration membrane 5 initiating terminal transverse section are immersed in top glue 2 completely, and end transverse section is immersed in end glue 4 completely, and in 75% submergence and main gel 3 of central transverse section circumference, all the other 25% are exposed to outside main gel 3.The distance that ultra-filtration membrane 5 initiating terminals stretch in top glue 2 is 50% ~ 75% of top glue 2 width, and the distance that ultra-filtration membrane 5 end ends stretch in end glue 4 is 50% ~ 75% of end glue 2 width.
Top glue 2 arranges rectangular-shaped cloth air cavity 6, to connect ultra-filtration membrane 5 initiating terminals and inlet pipe 7, its length, width, height are followed successively by (2 ~ 3) with the ratio of aeration board height: 1,1:(4 ~ 5) and 1:(3 ~ 4), but its size should meet the requirement of holding all ultra-filtration membrane monomer ends, to complete its air distribution function.Inlet pipe 7 is connected with cloth air cavity 6 through pedestal 1, inlet pipe 7 external diameters be cloth air cavity 6 highly 2/3 ~ 3/4, inlet pipe 7 is stretched out 5 ~ 10 times that the length of pedestal 1 outer wall is its external diameter.The tolerance intensity of the each structure compressive strength of top glue 2, main gel 3, end glue 4, ultra-filtration membrane 5, cloth air cavity 6 and inlet pipe 7 and connection place thereof is all greater than 1.5 MPa.
A kind of working process of ultra-filtration membrane aeration board is as follows: gas (oxygen, air or methane etc.) enters cloth air cavity 6 from inlet pipe 7, enters its inner chamber by the initiating terminal of ultra-filtration membrane 5.Under the effect of inside and outside differential pressure, gas passes the ultramicropore on the quarter turn that is exposed to the ultra-filtration membrane 5 outside main gel 3, and is cut into the ultramicro air bubble of aperture 10 ~ 100nm, and then enters water main body.After the gas molecule on ultramicro air bubble surface contacts with water clusters, be combined and be converted into solubilised state with water clusters, fail effectively to contact with water clusters, or the gas that cannot contact with water clusters in inside, with gas overflowing water main body.
The effectively key of work of ultra-filtration membrane 5 in the utility model, is correctly arranging and the excellent sealing of whole device of ultra-filtration membrane.The initiating terminal of ultra-filtration membrane 5 and end transverse section, end are submerged in respectively in top glue 2 and end glue 4 completely, and are fixed and excellent sealing by it; Within 75% of the middle body transverse section circumference of ultra-filtration membrane 5 is submerged in main gel 3, all the other 25% are exposed to outside main gel 3, and are fixed and excellent sealing by it.In addition, must ensure the stopping property of whole device, the ultra-fine hole that gas can only be exposed on the quarter turn outside main gel 3 by ultra-filtration membrane 5 diffuses to liquid phase, and can not have other approach.
Claims (8)
1. a ultra-filtration membrane aeration board, it is characterized in that: aeration board bottom is provided with pedestal (1), pedestal (1) top is provided with fluting, respectively in fluting left side, central authorities and filling top, right side glue (2), main gel (3) and end glue (4), in fluting, be equipped with tubular ultra-filtration membrane (5), main gel (3) top is lower than pedestal (1) top, main gel (3) floods and seals 75% of ultra-filtration membrane (5) circumference, top glue (2) top flushes with pedestal (1) top, top glue (2) is fixed ultra-filtration membrane (5) initiating terminal, ultra-filtration membrane (5) initiating terminal is opened on the cloth air cavity (6) in top glue (2), cloth air cavity (6) is connected with gas supply device by inlet pipe (7), end glue (4) top flushes with pedestal (1) top, end glue (4) is fixed ultra-filtration membrane (5) end seal.
2. a kind of ultra-filtration membrane aeration board according to claim 1, it is characterized in that: described aeration board is rectangular-shaped device, its length is 4:1 ~ 8:1 with the ratio of height, its width is 10:1 ~ 15:1 with the ratio of height, but its height must not be less than 10 mm, fluting is for rectangular-shaped, and the length of fluting, width, height are (2 ~ 4) with the ratio of aeration board height: (8 ~ 12): (0.5 ~ 0.8): 1, but the height of fluting must not be less than 5 mm.
3. a kind of ultra-filtration membrane aeration board according to claim 1, is characterized in that: described top glue (2), main gel (3) and end glue (4) three's length and the ratio of rectangular-shaped slotting length are followed successively by 1:1,1:1 and 1:1; The ratio of top glue (2), main gel (3) and end glue (4) three's width is 1:(10 ~ 15): 1, but the width of top glue (2) and end glue (4) is all not less than 10 mm; Top glue (2), main gel (3) and end glue (4) three's thickness is followed successively by 1:1,2:1 and 1:1 with the ratio of rectangular-shaped fluting height, but the thickness of main gel (3) is not less than 2.5 mm.
4. a kind of ultra-filtration membrane aeration board according to claim 1, it is characterized in that: monomer external diameter 0.4 ~ 2.0 mm of described ultra-filtration membrane (5), internal diameter 0.3 ~ 1.4mm, fenestra size 10 ~ 100 nm, the initiating terminal of ultra-filtration membrane (5) and end end stretch into respectively in top glue (2) and end glue (4), middle body embeds in main gel (3), ultra-filtration membrane (5) monomer arrangement pitches is its external diameter 2 ~ 3 times, outermost ultra-filtration membrane (5) monomer is 1.5 ~ 2.0 mm apart from the distance of fluting outer rim.
5. a kind of ultra-filtration membrane aeration board according to claim 1, it is characterized in that: described ultra-filtration membrane (5) initiating terminal transverse section is immersed in top glue (2) completely, end transverse section is immersed in end glue (4) completely, in 75% submergence and main gel (3) of central authorities' transverse section circumference, all the other 25% are exposed to outside main gel (3), the distance that ultra-filtration membrane (5) initiating terminal stretches in top glue (2) is 50% ~ 75% of top glue (2) width, and the distance that ultra-filtration membrane (5) end end stretches in end glue (4) is 50% ~ 75% of end glue (2) width.
6. a kind of ultra-filtration membrane aeration board according to claim 1, it is characterized in that: described top glue (2) arranges rectangular-shaped cloth air cavity (6), to connect ultra-filtration membrane (5) initiating terminal and inlet pipe (7), its length, width, height are followed successively by (2 ~ 3) with the ratio of aeration board height: 1,1:(4 ~ 5) and 1:(3 ~ 4), but its size should meet the requirement of holding all ultra-filtration membrane monomer ends, to complete its air distribution function.
7. a kind of ultra-filtration membrane aeration board according to claim 1, it is characterized in that: described inlet pipe (7) is connected with cloth air cavity (6) through pedestal (1), inlet pipe (7) external diameter is 2/3 ~ 3/4 of cloth air cavity (6) height, and inlet pipe (7) is stretched out 5 ~ 10 times that the length of pedestal (1) outer wall is its external diameter.
8. a kind of ultra-filtration membrane aeration board according to claim 1, is characterized in that: the tolerance intensity of described top glue (2), main gel (3), end glue (4), ultra-filtration membrane (5), cloth air cavity (6) and the each structure compressive strength of inlet pipe (7) and connection place thereof is all greater than 1.5 MPa.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201420374496.4U CN203976467U (en) | 2014-07-08 | 2014-07-08 | A kind of ultra-filtration membrane aeration board |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201420374496.4U CN203976467U (en) | 2014-07-08 | 2014-07-08 | A kind of ultra-filtration membrane aeration board |
Publications (1)
Publication Number | Publication Date |
---|---|
CN203976467U true CN203976467U (en) | 2014-12-03 |
Family
ID=51973931
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201420374496.4U Withdrawn - After Issue CN203976467U (en) | 2014-07-08 | 2014-07-08 | A kind of ultra-filtration membrane aeration board |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN203976467U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104176818A (en) * | 2014-07-08 | 2014-12-03 | 浙江大学 | Ultrafiltration membrane aeration plate and method thereof |
-
2014
- 2014-07-08 CN CN201420374496.4U patent/CN203976467U/en not_active Withdrawn - After Issue
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104176818A (en) * | 2014-07-08 | 2014-12-03 | 浙江大学 | Ultrafiltration membrane aeration plate and method thereof |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
RU2426586C1 (en) | Hollow-fibre membrane module, method of its production, assembly unit with said module and method of suspended water treatment thereby | |
CN103736409A (en) | Production method of ozone micro air bubbles | |
CN101491749B (en) | Micro bubble generation device | |
CN110143664B (en) | Micro-nano aeration BAF treatment device and treatment process | |
CN203976467U (en) | A kind of ultra-filtration membrane aeration board | |
CN107174960A (en) | A kind of method that utilization nano bubble is aerated decelerating membrane pollution | |
CN105688674A (en) | Membrane treatment process device and processing method thereof | |
CN104176818B (en) | Ultrafilter membrane aeration board and method thereof | |
CN112957936A (en) | Novel micro-nano bubble takes place device | |
CN205127759U (en) | Super micro -filtration membrane module of curtain formula submergence water treatment | |
CN206168231U (en) | Dull and stereotyped membrane separation device of pottery | |
CN204619758U (en) | A kind of hollow fiber film assembly being applicable to external membrane bioreactor | |
CN204981273U (en) | Plain water generating device | |
CN203999166U (en) | A kind of automatic lifting aeration in sewage treatment machine | |
CN205727688U (en) | Whirlpool aeration pipe is made for water oxygenation | |
WO2017016016A1 (en) | Ozone micro-bubble reaction sewage treatment apparatus and method | |
CN206273783U (en) | Dissolved gas floatator | |
CN214693532U (en) | Micro-nano bubble generating device | |
CN204280240U (en) | A kind of foam bottle cap | |
CN202891689U (en) | Gas-collecting decanter | |
CN104030434A (en) | Nanometer aeration device and nanometer aeration method | |
CN202492391U (en) | Full-automatic dissolved air flotation device | |
CN203938518U (en) | Nanometer aeration device | |
CN204093318U (en) | A kind of water-distributing device of ultrafiltration apparatus | |
CN205045842U (en) | Novel nanometer dissolves gas ware |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20141203 Effective date of abandoning: 20160817 |
|
C25 | Abandonment of patent right or utility model to avoid double patenting |