CN105237028A - Multi-channel kaolin plate ceramic membrane support, preparation method and application thereof - Google Patents
Multi-channel kaolin plate ceramic membrane support, preparation method and application thereof Download PDFInfo
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- CN105237028A CN105237028A CN201510569837.2A CN201510569837A CN105237028A CN 105237028 A CN105237028 A CN 105237028A CN 201510569837 A CN201510569837 A CN 201510569837A CN 105237028 A CN105237028 A CN 105237028A
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Abstract
The invention discloses a multi-channel kaolin plate ceramic membrane support, a preparation method and an application thereof. The preparation method includes the following steps: 1) mixing a kaolin ceramic aggregate, a pore forming agent, a dispersing agent and a gel-casting adhesive, ball-milling the mixture, adding RO water, heating the mixture to 40-85 DEG C and ball-milling the mixture for 4-20 h to obtain slurry; 2) maintaining the temperature of the slurry to be 40-85 DEG C, vacuum-defoaming the slurry, injecting the slurry into a moulding die, and performing in-situ moulding at 0-40 DEG C to obtain a wet blank; 3) demoulding the wet blank, shade-drying the wet blank at room temperature, drying the wet blank at 40-100 DEG C, and sintering the blank in air at 1000-1500 DEG C for 1-4 h with temperature maintained to obtain the multi-channel kaolin plate ceramic membrane support. The preparation method is carried out through the gel-casting process so that the method is wide in available range, is low in cost and is easy to control in processes. The blank body is high in strength, is low in organic substance content, can be sintered directly and is good in performance uniformity. The multi-channel kaolin plate ceramic membrane support has high total porosity and filtering flux, and is toxic-free and environment-friendly.
Description
Technical field
The invention belongs to ceramic membrane technology field, be specifically related to a kind of hyperchannel kaolin flat ceramic film support, its preparation method and application, it can be used for substituting organic flat sheet membrane of being usually used at present in membrane bioreactor or hollow-fibre membrane.
Background technology
There is the low shortcoming of machinery, chemistry and thermostability in the organic membrane that uses in membrane bioreactor, its application in harsh system is restricted.Compared with organic membrane, inorganic ceramic flat sheet membrane is except having effective crown_interception, also there is the advantages such as high temperature resistant, solvent resistant, acid-alkali-corrosive-resisting, high mechanical strength, long lifetime, high separating efficiency and easy cleaning be renewable, can realize deep purification of waste water, deep phosphorous removal denitrogenation.Due to the performance of inorganic ceramic flat sheet membrane excellence, many enterprises have started research and development and have promoted this utilisation technology, and the application of this technology is more and more extensive at present.
Domestic at present only have several enterprises to produce earthenware slab film, and product common on market is the earthenware slab membrane module that the bright electricity house of Amada Co., Ltd. is produced.
CN102596374A and CN102858440A discloses the membrane separation unit that the bright electricity house of Amada Co., Ltd. adopts the assembling of earthenware slab film, is designed, reduces and filter load and Pore Blocking, improve film device separation efficiency by certain moduli blocking.CN102688700A discloses a kind of earthenware slab film support and preparation method thereof, described in described earthenware slab film, ceramic film support is tabular, be made up of two flat sheet membrane supporters, certain space is left in the middle of two flat sheet membrane supporters, at least one pillar stiffener is dispersed with in described space, at least one water exit is set in flat sheet membrane supporter, adopts and the preparation technology of mixing for starting material rear extrusion moulding is obtained.CN103381338A discloses a kind of earthenware slab film support and preparation method thereof, and its earthenware slab film support comprises 2 layers of flat sheet membrane, left side wall, right side wall and at least one pillar stiffener between 2 layers of flat sheet membrane; Flat sheet membrane is unsymmetrical structure, comprises the top layer of sponge pore structure and the internal layer of finger-like pore structure; Described earthenware slab film support is through preparing slurry, phase inversion process masking, and compression molding is shaping, and sintering obtains.CN104258737A is specifically related to a kind of preparation method of large size, thin walled hollow ceramic membrane, it adopts extrusion moulding flat sheet membrane supporter, by using nano silicon dispersion liquid coating alpha-Al2O3 powder, reducing the sintering temperature of flat sheet membrane supporter, improving the yield rate of flat sheet membrane; The ceramic powder particle that separation membrane layer adopts Nano silica sol to modify, by mellow and full for particle surface spheroidization, reduces duct filtration resistance little, improves water flux.
Shanghai Maritime University adopts dry pressing and solid particles sintering process to prepare rondelle alumina ceramic supporting body, Best-Effort request technique is adopted to prepare ceramic microfiltration membrane, inquire into the impact on membrane pore size and pure water flux of solid content in coating liquid, and study the effect that coating process and calcining system formed film.Simultaneously to pore size and the distribution of microfiltration membrane, the performances such as membrane porosity, pure water flux and bending strength characterize.Shaanxi Tech Univ adopts compression molding method, with aluminum oxide, kaolin and talcum etc. for raw material, has prepared planar ceramic membrane; And by preparing transition layer, separating layer control ceramic membrane aperture; Ceramic membrane prepared by it is carried out the application in the field such as oily(waste)water, dyeing waste water, and obtain good effect.
Comprehensive existing patent, literature research and market product, can find, the main molding mode of plate type ceramic film support has two kinds, one extrudes once shaped, this molding mode production efficiency is high, but die cost is high, and the width of lamina membranacea, thickness are restricted comparatively large, and the specification of lamina membranacea is limited; Extrusion moulding is pressure forming, and the granularity of raw material is comparatively thin, and when extruding, base substrate entirety can be more closely knit, and porosity is lower, finally causes filtration flux lower.Another first prepares two half of films with compression molding, then with bind mode molded integral flat sheet membrane.This complex operation, production efficiency are low, bonding place sintering is easy to crack, yield rate is low, and organic solvent in production process, tackiness agent can cause larger pollution to environment, are harmful to producers' health.
Summary of the invention
The object of the invention is to overcome the deficiencies in the prior art part, provide a kind of hyperchannel kaolin flat ceramic film support, its preparation method and application.
One of the technical solution adopted for the present invention to solve the technical problems is:
A preparation method for hyperchannel kaolin flat ceramic film support, comprising:
1) according to the mass fraction, by the kaolin ceramic aggregate that 80 ~ 95 parts of median sizes are 1 ~ 200 μm, 1 ~ 5 part of pore-forming material, after 1 ~ 5 part of dispersion agent and 1 ~ 10 part of gel injection binding agent mix, ball milling 2 ~ 4h, obtains mixed powder, the ratio being 1 ~ 2.2:1 in the volume ratio of mixed powder and RO water adds RO water, be heated to 40 ~ 85 DEG C, ball milling 4 ~ 20h, obtains slurry; Described gel injection binding agent is gelatin, agarose, agar-agar, fructose, Irish platform glue, chitosan or protein;
2) maintaining slurry temperature is 40 ~ 85 DEG C, after froth in vacuum, and by slurry injection moulding mould, formed in situ at 0 ~ 40 DEG C, obtains wet base; The some tubuloses for the formation of the passage running through opposing sidewalls in supporter or bar molds is provided with in described forming mould;
3) by the above-mentioned wet base demoulding, room temperature is dried in the shade 1 ~ 5 day, dry 1 ~ 5 day for 40 ~ 100 DEG C, in air atmosphere after 1000 ~ 1500 DEG C of heat preservation sintering 1 ~ 4h, obtain described hyperchannel kaolin flat ceramic film support, its porosity is 30 ~ 70%, and mean pore size is 10 ~ 500 μm, and ultimate compression strength is 20 ~ 30MPa.
In one embodiment: described step 1) in, pore-forming material is at least one in starch, activity charcoal powder or Graphite Powder 99.
In one embodiment: described step 1) in, dispersion agent is at least one in carboxymethyl cellulose, methylcellulose gum, polyvinyl alcohol or polyoxyethylene glycol.
In one embodiment: described step 2) in, the shape of cross section of passage is circular, oval, square, rectangle or arbitrary polygon; Described passage is several and is arranged in one deck or some layers, and described one deck has one or several passages.
Two of the technical solution adopted for the present invention to solve the technical problems is:
A kind of hyperchannel kaolin flat ceramic film support, described hyperchannel kaolin flat ceramic film support is tabular, and be provided with the passage running through opposing sidewalls, its porosity is 30 ~ 70%, and mean pore size is 10 ~ 500 μm, and ultimate compression strength is 20 ~ 30MPa; This hyperchannel kaolin flat ceramic film support is standby by gel casting forming legal system, its raw material according to the mass fraction, comprise the kaolin ceramic aggregate that 80 ~ 95 parts of median sizes are 1 ~ 200 μm, 1 ~ 5 part of pore-forming material, 1 ~ 5 part of dispersion agent, 1 ~ 10 part of gel injection binding agent, and be the RO water of 1 ~ 2.2:1 with the volume ratio of said components; Described gel injection binding agent is gelatin, agarose, agar-agar, fructose, Irish platform glue, chitosan or protein.
In one embodiment: described pore-forming material is at least one in starch, activity charcoal powder or Graphite Powder 99;
In one embodiment: described dispersion agent is at least one in carboxymethyl cellulose, methylcellulose gum, polyvinyl alcohol or polyoxyethylene glycol.
In one embodiment: the shape of cross section of described passage is circular, oval, square, rectangle or arbitrary polygon; Described passage is several and is arranged in one deck or some layers, and described one deck has one or several passages.
Three of the technical solution adopted for the present invention to solve the technical problems is:
Hyperchannel kaolin flat ceramic film support prepared by the preparation method of above-mentioned hyperchannel kaolin flat ceramic film support is preparing the application in ceramic membrane.
In one embodiment: the rete that described ceramic membrane is comprised described hyperchannel kaolin flat ceramic film support and is prepared in by suspended nitride dipping-cladding process, soaking paste cladding process, sol-gel method, spraying method, curtain coating or spread coating on this supporter.
The technical program is compared with background technology, and its tool has the following advantages:
1. preparation method of the present invention adopts gel casting forming, applied widely, to powder without particular requirement, with low cost; Technological process is easy to control, can realize near-net-shape, prepares the parts of complicated shape; The wet blank strength obtained is high, is obviously better than the base substrate that conventional molding process is made, can carry out mechanical workout; And organic content is low, can direct sintering, without the need to independent binder removal; Base substrate and sintered compact performance uniformity good.
2. the hyperchannel kaolin flat ceramic film support overall porosity prepared of the present invention is high, and filtration flux is high, asepsis environment-protecting.
Accompanying drawing explanation
Below in conjunction with drawings and Examples, the invention will be further described.
Fig. 1 is the cross sectional representation of hyperchannel kaolin flat ceramic film support of the present invention.
Fig. 2 is the vertical view of hyperchannel kaolin flat ceramic film support of the present invention.
Reference numeral: body 1, passage 2.
Embodiment
Content of the present invention is illustrated below by embodiment:
Embodiment 1
1) according to the mass fraction, by the kaolin ceramic aggregate that 95 parts of median sizes are 180 μm, the pore-forming material activity charcoal powder of 1 part of particle diameter 20 μm, 1 part of molecular weight be 2000 polyethylene of dispersing agent alcohol (PVA) powder and 3 parts of purity be that after the gel injection binding agent gelatin powder mixing of 98%, ball milling 2 ~ 4h, obtains mixed powder, the ratio being 2.2:1 in the volume ratio of mixed powder and RO water adds RO water, heating in water bath to 85 DEG C, ball milling 20h, obtains slurry;
2) maintaining slurry temperature is 80 DEG C, after froth in vacuum, immediately slurry is injected flat sheet membrane forming mould, formed in situ at 20 DEG C, obtains wet base; The some tubuloses for the formation of the passage running through opposing sidewalls in supporter or bar molds is provided with in described forming mould;
3) by the above-mentioned wet base demoulding, room temperature is dried in the shade 24h, and dry 48h for 80 DEG C, in air atmosphere after 1450 DEG C of heat preservation sintering 2h, obtain described hyperchannel kaolin flat ceramic film support, porosity is 65%, and mean pore size is 35 μm, and ultimate compression strength is 29MPa.
After testing, under the pressure of 0.1MPa, the hyperchannel kaolin flat ceramic film support pure water flux of the present embodiment is 26m
3/ m
2h.
As depicted in figs. 1 and 2, the hyperchannel kaolin flat ceramic film support of the present embodiment comprises a flat body 1, there is in this body 1 some passages 2 running through opposing sidewalls, the shape of cross section of this passage 2 is circular, oval, square, rectangle or arbitrary polygon, and can be arranged in one deck, two-layer or more layer; Every one deck has one or several passages.
The hyperchannel kaolin flat ceramic film support of the present embodiment is prepared by suspended nitride dipping-cladding process the kaolin flat sheet membrane that one deck aperture is 500nm, and under the pressure of 0.1MPa, this kaolin flat sheet membrane pure water flux is 8m
3/ m
2h.
Embodiment 2
1) according to the mass fraction, by the kaolin ceramic aggregate that 80 parts of median sizes are 1 μm, the pore-forming material starch of 5 parts of particle diameters 1 μm, 5 parts of molecular weight be 1000 dispersion agent polyoxyethylene glycol (PEG) powder and 10 parts of purity be that after the gel injection binding agent agar-agar powder mixing of 98%, ball milling 4h, obtains mixed powder, the ratio being 1.5:1 in the volume ratio of mixed powder and RO water adds RO water, heating in water bath to 45 DEG C, ball milling 18h, obtains slurry;
2) maintaining slurry temperature is 45 DEG C, after froth in vacuum, immediately slurry is injected flat sheet membrane forming mould, formed in situ at 15 DEG C, obtains wet base; The some tubuloses for the formation of the passage running through opposing sidewalls in supporter or bar molds is provided with in described forming mould;
3) by the above-mentioned wet base demoulding, room temperature is dried in the shade 72h, dries 120h for 60 DEG C, in air atmosphere after 1180 DEG C of heat preservation sintering 2h, obtain described hyperchannel kaolin flat ceramic film support, porosity is 45%, mean pore size is 0.25 μm, and ultimate compression strength is 22MPa.
After testing, under the pressure of 0.1MPa, the hyperchannel kaolin flat ceramic film support pure water flux of the present embodiment is 18m
3/ m
2h.
As depicted in figs. 1 and 2, the hyperchannel kaolin flat ceramic film support of the present embodiment comprises a flat body 1, there is in this body 1 some passages 2 running through opposing sidewalls, the shape of cross section of this passage 2 is circular, oval, square, rectangle or arbitrary polygon, and can be arranged in one deck, two-layer or more layer; Every one deck has one or several passages.
The hyperchannel kaolin flat ceramic film support of the present embodiment is prepared by spraying method the kaolin flat sheet membrane that one deck aperture is 50nm, and under the pressure of 0.1MPa, this kaolin flat sheet membrane pure water flux is 3m
3/ m
2h.
Embodiment 3
1) according to the mass fraction, by the kaolin ceramic aggregate that 90 parts of median sizes are 100 μm, the pore-forming material activity charcoal powder of 3 parts of particle diameters 10 μm, 2 parts of molecular weight be 2800 dispersion agent methylcellulose gum (MC) powder and 5 parts of purity be that after the gel injection binding agent agarose powder mixing of 98%, ball milling 3h, obtains mixed powder, the ratio being 1.8:1 in the volume ratio of mixed powder and RO water adds RO water, heating in water bath to 75 DEG C, ball milling 12h, obtains slurry;
2) maintaining slurry temperature is 75 DEG C, after froth in vacuum, immediately slurry is injected flat sheet membrane forming mould, formed in situ at 25 DEG C, obtains wet base; The some tubuloses for the formation of the passage running through opposing sidewalls in supporter or bar molds is provided with in described forming mould;
3) by the above-mentioned wet base demoulding, room temperature is dried in the shade 48h, dries 100h for 65 DEG C, in air atmosphere after 1300 DEG C of heat preservation sintering 3h, obtain described hyperchannel kaolin flat ceramic film support, porosity is 60%, mean pore size is 25 μm, and ultimate compression strength is 26MPa.
After testing, under the pressure of 0.1MPa, the hyperchannel kaolin flat ceramic film support pure water flux of the present embodiment is 22m
3/ m
2h.
As depicted in figs. 1 and 2, the hyperchannel kaolin flat ceramic film support of the present embodiment comprises a flat body 1, there is in this body 1 some passages 2 running through opposing sidewalls, the shape of cross section of this passage 2 is circular, oval, square, rectangle or arbitrary polygon, and can be arranged in one deck, two-layer or more layer; Every one deck has one or several passages.
The hyperchannel kaolin flat ceramic film support of the present embodiment is prepared by spraying method the kaolin flat sheet membrane that one deck aperture is 100nm, and under the pressure of 0.1MPa, this kaolin flat sheet membrane pure water flux is 6.5m
3/ m
2h.
Those skilled in the art are known, when technical parameter of the present invention changes in following scope, it is expected to obtain same as the previously described embodiments or close technique effect:
A preparation method for hyperchannel kaolin flat ceramic film support, comprising:
1) according to the mass fraction, by the kaolin ceramic aggregate that 80 ~ 95 parts of median sizes are 1 ~ 200 μm, 1 ~ 5 part of pore-forming material, after 1 ~ 5 part of dispersion agent and 1 ~ 10 part of gel injection binding agent mix, ball milling 2 ~ 4h, obtains mixed powder, the ratio being 1 ~ 2.2:1 in the volume ratio of mixed powder and RO water adds RO water, be heated to 40 ~ 85 DEG C, ball milling 4 ~ 20h, obtains slurry; Described gel injection binding agent is gelatin, agarose, agar-agar, fructose, Irish platform glue, chitosan or protein;
2) maintaining slurry temperature is 40 ~ 85 DEG C, after froth in vacuum, and by slurry injection moulding mould, formed in situ at 0 ~ 40 DEG C, obtains wet base; The some tubuloses for the formation of the passage running through opposing sidewalls in supporter or bar molds is provided with in described forming mould;
3) by the above-mentioned wet base demoulding, room temperature is dried in the shade 1 ~ 5 day, dry 1 ~ 5 day for 40 ~ 100 DEG C, in air atmosphere after 1000 ~ 1500 DEG C of heat preservation sintering 1 ~ 4h, obtain described hyperchannel kaolin flat ceramic film support, its porosity is 30 ~ 70%, and mean pore size is 10 ~ 500 μm, and ultimate compression strength is 20 ~ 30MPa.
Described step 1) in, pore-forming material is at least one in starch, activity charcoal powder or Graphite Powder 99.
Described step 1) in, dispersion agent is at least one in carboxymethyl cellulose, methylcellulose gum, polyvinyl alcohol or polyoxyethylene glycol.
Described step 2) in, the shape of cross section of passage is circular, oval, square, rectangle or arbitrary polygon; Described passage is several and is arranged in one deck or some layers, and described one deck has one or several passages.
A kind of hyperchannel kaolin flat ceramic film support, described hyperchannel kaolin flat ceramic film support is tabular, and be provided with the passage running through opposing sidewalls, its porosity is 30 ~ 70%, and mean pore size is 10 ~ 500 μm, and ultimate compression strength is 20 ~ 30MPa; This hyperchannel kaolin flat ceramic film support is standby by gel casting forming legal system, its raw material according to the mass fraction, comprise the kaolin ceramic aggregate that 80 ~ 95 parts of median sizes are 1 ~ 200 μm, 1 ~ 5 part of pore-forming material, 1 ~ 5 part of dispersion agent, 1 ~ 10 part of gel injection binding agent, and be the RO water of 1 ~ 2.2:1 with the volume ratio of said components; Described gel injection binding agent is gelatin, agarose, agar-agar, fructose, Irish platform glue, chitosan or protein.
Described pore-forming material is at least one in starch, activity charcoal powder or Graphite Powder 99;
Described dispersion agent is at least one in carboxymethyl cellulose, methylcellulose gum, polyvinyl alcohol or polyoxyethylene glycol.
The shape of cross section of described passage is circular, oval, square, rectangle or arbitrary polygon; Described passage is several and is arranged in one deck or some layers, and described one deck has one or several passages.
Hyperchannel kaolin flat ceramic film support prepared by the preparation method of above-mentioned hyperchannel kaolin flat ceramic film support is preparing the application in ceramic membrane.
The rete that described ceramic membrane is comprised described hyperchannel kaolin flat ceramic film support and is prepared in by suspended nitride dipping-cladding process, soaking paste cladding process, sol-gel method, spraying method, curtain coating or spread coating on this supporter.
The above, be only present pre-ferred embodiments, therefore can not limit scope of the invention process according to this, the equivalence change namely done according to the scope of the claims of the present invention and description with modify, all should still belong in scope that the present invention contains.
Claims (10)
1. a preparation method for hyperchannel kaolin flat ceramic film support, is characterized in that: comprising:
1) according to the mass fraction, by the kaolin ceramic aggregate that 80 ~ 95 parts of median sizes are 1 ~ 200 μm, 1 ~ 5 part of pore-forming material, after 1 ~ 5 part of dispersion agent and 1 ~ 10 part of gel injection binding agent mix, ball milling 2 ~ 4h, obtains mixed powder, the ratio being 1 ~ 2.2:1 in the volume ratio of mixed powder and RO water adds RO water, be heated to 40 ~ 85 DEG C, ball milling 4 ~ 20h, obtains slurry; Described gel injection binding agent is gelatin, agarose, agar-agar, fructose, Irish platform glue, chitosan or protein;
2) maintaining slurry temperature is 40 ~ 85 DEG C, after froth in vacuum, and by slurry injection moulding mould, formed in situ at 0 ~ 40 DEG C, obtains wet base; The some tubuloses for the formation of the passage running through opposing sidewalls in supporter or bar molds is provided with in described forming mould;
3) by the above-mentioned wet base demoulding, room temperature is dried in the shade 1 ~ 5 day, dry 1 ~ 5 day for 40 ~ 100 DEG C, in air atmosphere after 1000 ~ 1500 DEG C of heat preservation sintering 1 ~ 4h, obtain described hyperchannel kaolin flat ceramic film support, its porosity is 30 ~ 70%, and mean pore size is 10 ~ 500 μm, and ultimate compression strength is 20 ~ 30MPa.
2. the preparation method of a kind of hyperchannel kaolin flat ceramic film support according to claim 1, is characterized in that: described step 1) in, pore-forming material is at least one in starch, activity charcoal powder or Graphite Powder 99.
3. the preparation method of a kind of hyperchannel kaolin flat ceramic film support according to claim 1, is characterized in that: described step 1) in, dispersion agent is at least one in carboxymethyl cellulose, methylcellulose gum, polyvinyl alcohol or polyoxyethylene glycol.
4. the preparation method of a kind of hyperchannel kaolin flat ceramic film support according to claim 1, is characterized in that: described step 2) in, the shape of cross section of passage is circular, oval, square, rectangle or arbitrary polygon; Described passage is several and is arranged in one deck or some layers, and described one deck has one or several passages.
5. a hyperchannel kaolin flat ceramic film support, it is characterized in that: described hyperchannel kaolin flat ceramic film support is tabular, and be provided with the passage running through opposing sidewalls, its porosity is 30 ~ 70%, mean pore size is 10 ~ 500 μm, and ultimate compression strength is 20 ~ 30MPa; This hyperchannel kaolin flat ceramic film support is standby by gel casting forming legal system, its raw material according to the mass fraction, comprise the kaolin ceramic aggregate that 80 ~ 95 parts of median sizes are 1 ~ 200 μm, 1 ~ 5 part of pore-forming material, 1 ~ 5 part of dispersion agent, 1 ~ 10 part of gel injection binding agent, and be the RO water of 1 ~ 2.2:1 with the volume ratio of said components; Described gel injection binding agent is gelatin, agarose, agar-agar, fructose, Irish platform glue, chitosan or protein.
6. a kind of hyperchannel kaolin flat ceramic film support according to claim 5, is characterized in that: described pore-forming material is at least one in starch, activity charcoal powder or Graphite Powder 99.
7. a kind of hyperchannel kaolin flat ceramic film support according to claim 5, is characterized in that: described dispersion agent is at least one in carboxymethyl cellulose, methylcellulose gum, polyvinyl alcohol or polyoxyethylene glycol.
8. a kind of hyperchannel kaolin flat ceramic film support according to claim 5, is characterized in that: the shape of cross section of described passage is circular, oval, square, rectangle or arbitrary polygon; Described passage is several and is arranged in one deck or some layers, and described one deck has one or several passages.
9. the hyperchannel kaolin flat ceramic film support prepared by preparation method of a kind of hyperchannel kaolin flat ceramic film support according to any one of claim 1 to 4 is preparing the application in ceramic membrane.
10. application according to claim 9, is characterized in that: the rete that described ceramic membrane is comprised described hyperchannel kaolin flat ceramic film support and is prepared in by suspended nitride dipping-cladding process, soaking paste cladding process, sol-gel method, spraying method, curtain coating or spread coating on this supporter.
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| CN106588097A (en) * | 2016-12-09 | 2017-04-26 | 深圳中清环境科技有限公司 | Ceramic support for water treatment and preparation method of ceramic support |
| CN110898683A (en) * | 2019-10-18 | 2020-03-24 | 三达膜科技(厦门)有限公司 | Preparation method of ceramic filtering membrane |
| CN112110744A (en) * | 2020-09-10 | 2020-12-22 | 中科院过程工程研究所南京绿色制造产业创新研究院 | Magnetic porous ceramic adsorption material and preparation method and application thereof |
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| CN115957636B (en) * | 2022-12-27 | 2024-01-12 | 江苏省宜兴非金属化工机械厂有限公司 | Ceramic flat membrane for drinking water and preparation method thereof |
Also Published As
| Publication number | Publication date |
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| CN105237028B (en) | 2018-04-27 |
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