CN109248711A - A kind of load TiO2PPS photocatalysis membrana preparation method - Google Patents

A kind of load TiO2PPS photocatalysis membrana preparation method Download PDF

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CN109248711A
CN109248711A CN201811197401.5A CN201811197401A CN109248711A CN 109248711 A CN109248711 A CN 109248711A CN 201811197401 A CN201811197401 A CN 201811197401A CN 109248711 A CN109248711 A CN 109248711A
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photocatalysis membrana
sulfate
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CN109248711B (en
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韩娜
杨焯
王卫静
张文昕
夏博伦
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Tianjin Polytechnic University
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    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01JCHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
    • B01J31/00Catalysts comprising hydrides, coordination complexes or organic compounds
    • B01J31/26Catalysts comprising hydrides, coordination complexes or organic compounds containing in addition, inorganic metal compounds not provided for in groups B01J31/02 - B01J31/24
    • B01J31/38Catalysts comprising hydrides, coordination complexes or organic compounds containing in addition, inorganic metal compounds not provided for in groups B01J31/02 - B01J31/24 of titanium, zirconium or hafnium
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01JCHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
    • B01J35/00Catalysts, in general, characterised by their form or physical properties
    • B01J35/30Catalysts, in general, characterised by their form or physical properties characterised by their physical properties
    • B01J35/39Photocatalytic properties
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    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01JCHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
    • B01J35/00Catalysts, in general, characterised by their form or physical properties
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    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
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    • C02F2101/308Dyes; Colorants; Fluorescent agents
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    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
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    • C02F2305/10Photocatalysts

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Abstract

The invention discloses a kind of load TiO2PPS photocatalysis membrana preparation method, comprising the following steps: titanium source, sulfate are mixed with the composite solution of ethyl alcohol, water and hydrochloric acid, and stirred at normal temperature to homogeneous, TiO is obtained2Precursor solution;PPS microporous barrier is placed in ethyl alcohol and is soaked, being then transferred to concentration is to handle in nitric acid solution;PPS microporous barrier is immersed into TiO2It in precursor solution, is together transferred in hydrothermal reaction kettle and carries out hydro-thermal reaction, PPS@TiO is obtained after washing and drying2Photocatalysis membrana.This method uses high temperature hydro-thermal method by TiO2Growth in situ promotes TiO in PPS micropore film surface2The crystallinity of nanoparticle obtains uniform aperture in the case where avoiding using adhesive, high porosity, bigger serface, high load amount, high catalyst crystallinity, is firmly combined, lateral load nano-TiO in the surface and duct of morphology controllable2PPS photocatalysis membrana, effectively improve the specific surface area and catalytic activity of catalyst.

Description

A kind of load TiO2PPS photocatalysis membrana preparation method
Technical field
The invention belongs to photocatalysis membrana preparation field, specially a kind of load TiO2PPS photocatalysis membrana preparation method.
Background technique
Organic pollutant is one of environmental contaminants difficult to deal with because of its stable structure, not easily biological-degradable.Semiconductor Photocatalysis technology can directly be removed the thorough mineralising of Some Organic Pollutants using luminous energy, be ideal organic pollutant processing One of technology.In a semiconductor material, nano-TiO2It is had received widespread attention with efficient, environmentally friendly, nontoxic, stable feature. However, nano-TiO2Catalysis material there is hardly possible recycling, it is easy to reunite the disadvantages of, be easy to cause secondary pollution and catalytic efficiency It reduces.Therefore, the catalysis material of support type is more and more applied.
In the research of load type photocatalytic material, the selection of matrix is the key that research, currently, matrix mainly has microballoon material Material, two-dimensional material, fabric, inorganic material and membrane material.Wherein, polymeric film material is with high porosity, high-ratio surface Long-pending and strong adsorption capacity receives significant attention.Currently, the mode of loading of load type photocatalytic material mainly has blending method, deposition Method, sol-gal process, adhesive bonding method and hydrothermal reaction at low temperature.Wherein blending method needs catalyst being embedded in polymeric matrix In, limit the load capacity and catalytic efficiency of catalyst.Material obtained by sedimentation, sol-gal process there is catalyst with The problem of basal body binding force difference.The use of adhesive not only increases production cost, can also bring environmental pollution.Hydrothermal reaction at low temperature Catalyst exists in prepared Film Photocatalyst with amorphous forms, and crystallinity is lower, and the light for greatly reducing material is urged Change performance.
The document of application number 201611156787.6 discloses a kind of activated carbon fiber-loaded nano-TiO2The preparation of film Method.This method using induction reverse micelle method in situ prepare activated carbon fiber-loaded uniform flawless, adhesive force by force, film thickness Controllable compact nanometer TiO2The composite photocatalyst material of film.This method effective solution nano-TiO2Catalysis material is difficult The disadvantages of recycling, be easy to reunite, but the preparation condition and longer preparation path of complicated process flow, more harshness limit the party Method is further applied and development.The document of application number 2017111579844 discloses a kind of area load TiO2Nano wire The preparation method of polyetherimide photocatalysis ultrafiltration membrane grows TiO in film surface by low temperature crystallization technology2Nano wire improves The film to improve the flux of film keep high stage cut while, and is applied to photocatalysis pollution by the hydrophily of film The fields such as improvement.But the contribution that the relatively limited and matrix of the active site of catalyst exposure improves catalytic efficiency is smaller, function It can be more single.
Summary of the invention
In view of the deficiencies of the prior art, the technical issues of present invention intends to solve is to provide a kind of load TiO2PPS light urge Change the preparation method of film.
The technical solution that the present invention solves the technical problem is to provide a kind of load TiO2PPS photocatalysis membrana system Preparation Method, it is characterised in that method includes the following steps:
1)TiO2The preparation of precursor solution: titanium source, sulfate are mixed with the composite solution of ethyl alcohol, water and hydrochloric acid, and It is stirred at normal temperature to homogeneous, obtains TiO2Precursor solution;TiO2The concentration of titanium source is 1~500g/L, sulphur in precursor solution The concentration of hydrochlorate is 1~50g/L;The volume ratio of the ethyl alcohol, water and hydrochloric acid is 2-6:1-3:1-3;
2) pretreatment of PPS microporous barrier: PPS microporous barrier being placed in ethyl alcohol and is soaked, be then transferred to concentration be 5~ It is stirred 0.5~8 hour at 10~50 DEG C in the nitric acid solution of 55wt.%;
3) high temperature hydro-thermal method in-situ preparation PPS TiO2Photocatalysis membrana: the PPS microporous barrier that step 2) is obtained immerses step 1) TiO obtained2In precursor solution, it is together transferred to progress 2~30h of hydro-thermal reaction, reaction temperature in hydrothermal reaction kettle It is 80~240 DEG C, PPS@TiO is obtained after washing and drying2Photocatalysis membrana;
0.01~1 milliliter of TiO is added in PPS microporous barrier every square centimeter2Precursor solution.
Compared with prior art, the beneficial effects of the invention are that:
(1) nontoxic, green, stable, antibacterial TiO is used2As major catalyst, using high temperature hydro-thermal method by TiO2It is in situ It is grown on PPS micropore film surface, promotes TiO2The crystallinity of nanoparticle obtains uniform in the case where avoiding using adhesive Aperture, bigger serface, high load amount, high catalyst crystallinity, is firmly combined, the surface and hole of morphology controllable high porosity Lateral load nano-TiO in road2PPS photocatalysis membrana, effectively improve the specific surface area and catalytic activity of catalyst.
(2) using high temperature resistant, solvent resistant, acid-alkali-corrosive-resisting high performance material PPS as catalyst carrier, PPS main chain Containing a large amount of phenyl ring, π type Absorptive complex wave can be formed, improves the chemical adsorptivity to organic pollutant from matrix angle, thus Further improve the efficiency of the catalysis of catalyst.
(3) PPS microporous barrier has dendritic structure, and specific surface area and porosity with higher is further improved and urged Change the adsorptivity of membrane material.The raising of chemical adsorptivity is conducive to improve the catalytic efficiency of heterogeneous catalysis, to obtain high catalysis The photocatalysis membrana of efficiency.
(4) technique to PPS microporous barrier nitric acid pretreatment is introduced, it is main under the premise of not destroying former PPS film dynamic performance Thioether bond on chain can be partially oxidized into sulfoxide key, provide chemical bonds site, and sulfoxide key has electronegativity, can be with band just The titanium source hydrolysis intermediate product of electricity attracts each other to form electrostatic force combination, firm interaction is formed, to improve inorganic The binding force of nanocatalyst particles and film matrix avoids the use of adhesive.
(5) preparation process is simple, preparation flow is shorter, reaction condition is mild controllably, operation is more convenient.
Detailed description of the invention
Fig. 1 is present invention load TiO2PPS photocatalysis membrana preparation method embodiment 2 in the photocatalysis membrana for preparing SEM photograph;
Fig. 2 is present invention load TiO2PPS photocatalysis membrana preparation method embodiment 2 in the photocatalysis membrana for preparing XRD diagram;
Fig. 3 is present invention load TiO2PPS photocatalysis membrana preparation method embodiment 2 in the photocatalysis membrana for preparing to Asia The photocatalytic degradation curve graph of methyl blue organic solvent;
Fig. 4 is present invention load TiO2PPS photocatalysis membrana preparation method comparative example 1 in the photocatalysis membrana for preparing SEM photograph;
Specific embodiment
Specific embodiments of the present invention are given below.Specific embodiment is only used for that present invention be described in more detail, unlimited The protection scope of the claim of this application processed.
The present invention provides a kind of load TiO2PPS photocatalysis membrana preparation method (abbreviation method), it is characterised in that Method includes the following steps:
1)TiO2The preparation of precursor solution: titanium source, sulfate are mixed with the composite solution of ethyl alcohol, water and hydrochloric acid, and It is stirred at normal temperature to homogeneous, obtains TiO2Precursor solution;TiO2The concentration of titanium source is 1~500g/L, sulphur in precursor solution The concentration of hydrochlorate is 1~50g/L;The volume ratio of the ethyl alcohol, water and hydrochloric acid is 2-6:1-3:1-3;
Preferably, titanium source concentration is 10~200g/L, and sulfate concentration is 2~10g/L, ethyl alcohol, water and hydrochloric acid volume ratio For 3-5:1-3:1-3;
The titanium source be butyl titanate, titanium tetrachloride, titanium sulfate, titanium trichloride, isopropyl titanate, cyclopentadienyl titanium dichloride, At least one of titanium tetrafluoride or titanium potassium oxalate;
The sulfate is ferric sulfate, ammonium sulfate, titanium sulfate, sodium sulphate, magnesium sulfate, copper sulphate, potassium sulfate or aluminum sulfate At least one of;
2) pretreatment of PPS microporous barrier: PPS microporous barrier being placed in ethyl alcohol and is soaked, be then transferred to concentration be 5~ It is stirred 0.5~8 hour at 10~50 DEG C in the nitric acid solution of 55wt.%;
3) high temperature hydro-thermal method in-situ preparation PPS TiO2Photocatalysis membrana: the PPS microporous barrier that step 2) is obtained immerses step 1) TiO obtained2In precursor solution, it is together transferred to progress 2~30h of hydro-thermal reaction, reaction temperature in hydrothermal reaction kettle It is 80~240 DEG C, resulting film will be reacted and be washed with deionized, dries 6~24 hours obtain PPS@TiO in an oven2Light Catalytic membrane.
0.01~1 milliliter of TiO is added in PPS microporous barrier every square centimeter2Precursor solution;Preferably, every square centimeter 0.02~0.04 milliliter of TiO is added in PPS microporous barrier2Precursor solution.
PPS@TiO2Photocatalysis membrana can be applied in organic dye waste water.
Embodiment 1
1) titanium tetrachloride, ammonium sulfate are mixed and is stirred at normal temperature with the solution that ethyl alcohol, water and hydrochloric acid volume ratio are 2:1:1 It mixes to homogeneous, obtains TiO2Precursor solution;TiO2The concentration of titanium source is 50g/L in precursor solution, the concentration of sulfate is 1g/L;
2) PPS microporous barrier is placed in ethyl alcohol and is soaked, is then transferred in the nitric acid solution that concentration is 20% at 20 DEG C Stirring 4 hours.
3) by 20cm2Resulting pretreated PPS microporous barrier immerses 20ml precursor solution and is transferred to hydrothermal reaction kettle For 24 hours, reaction temperature is 220 DEG C to middle progress hydro-thermal reaction, will react resulting film and is washed with deionized completely, does in an oven Obtain PPS@TiO within dry 24 hours2Photocatalysis membrana.
After tested, PPS@TiO2The porosity of photocatalysis membrana is 78.1%, and the load factor of titanium dioxide is 19.2%.Using Methylene blue simulates liquid organic pollutant and measures photocatalysis performance, the specific steps are as follows: the PPS TiO for being 2.5cm by diameter2 Photocatalysis membrana is placed in the aqueous solution of methylene blue of 25mL (20mg/L), is carried out under the magnetic agitation in 200rmp dark first 1h is adsorbed, ultraviolet lamp is then opened and carries out photocatalytic degradation, after tested, prepared PPS@TiO2Photocatalysis membrana is to methylene blue Catalytic efficiency 93% or more.Through current scour experimental test (the current scour 150min under 2bar pressure), the photocatalysis The decline of membrane flux 11%, the TiO of load2It is relatively firm, it is not easily to fall off.
Embodiment 2
1) butyl titanate, ammonium sulfate are mixed simultaneously at normal temperature with the solution that ethyl alcohol, water and hydrochloric acid volume ratio are 4:1:2 Stirring obtains TiO to homogeneous2Precursor solution;TiO2The concentration of titanium source is the concentration of 150g/L, sulfate in precursor solution For 5g/L;
2) PPS microporous barrier is placed in ethyl alcohol and is soaked, is then transferred in the nitric acid solution that concentration is 10% at 50 DEG C Stirring 1 hour.
3) by 20cm2Resulting pretreated PPS microporous barrier immerses 10ml precursor solution and is transferred to hydrothermal reaction kettle Middle progress hydro-thermal reaction 12h, reaction temperature are 180 DEG C, will react resulting film and are washed with deionized completely, do in an oven Obtain PPS@TiO within dry 24 hours2Photocatalysis membrana.
After tested, PPS@TiO2The porosity of photocatalysis membrana is 73.4%, and the load factor of titanium dioxide is 50.6%.Using Methylene blue simulates liquid organic pollutant and measures photocatalysis performance, after tested, prepared PPS TiO2Photocatalysis membrana is to Asia The catalytic efficiency of methyl blue is 99% or more.Through current scour experimental test, the photocatalysis membrana flux decline 17%, load TiO2It is relatively firm, it is not easily to fall off.
Embodiment 3
1) solution that titanium sulfate, ammonium sulfate and ethyl alcohol, water and hydrochloric acid volume ratio are 6:2:3 is mixed and stirred at normal temperature To homogeneous, TiO is obtained2Precursor solution;TiO2The concentration of titanium source is 400g/L in precursor solution, the concentration of sulfate is 50g/L;
2) PPS microporous barrier is placed in ethyl alcohol and is soaked, is then transferred in the nitric acid solution that concentration is 30% at 20 DEG C Stirring 1 hour.
3) by 20cm2Resulting pretreated PPS microporous barrier immerses 10ml precursor solution and is transferred to hydrothermal reaction kettle Middle progress hydro-thermal reaction 30h, reaction temperature are 120 DEG C, will react resulting film and are washed with deionized completely, do in an oven Obtain PPS@TiO within dry 24 hours2Photocatalysis membrana.
After tested, PPS@TiO2The porosity of photocatalysis membrana is 76.8%, and the load factor of titanium dioxide is 38.7%.Using Methylene blue simulates liquid organic pollutant and measures photocatalysis performance, after tested, prepared PPS TiO2Photocatalysis membrana is to Asia The catalytic efficiency of methyl blue is 98% or more.Through current scour experimental test, the photocatalysis membrana flux decline 13%, load TiO2It is relatively firm, it is not easily to fall off.
Embodiment 4
1) titanium potassium oxalate, ammonium sulfate are mixed and is stirred at normal temperature with the solution that ethyl alcohol, water and hydrochloric acid volume ratio are 4:2:1 It mixes to homogeneous, obtains TiO2Precursor solution;TiO2The concentration of titanium source is 300g/L in precursor solution, the concentration of sulfate is 20g/L;
2) PPS microporous barrier is placed in ethyl alcohol and is soaked, is then transferred in the nitric acid solution that concentration is 30% at 20 DEG C Stirring 1 hour.
3) by 20cm2Resulting pretreated PPS microporous barrier immerses 20ml precursor solution and is transferred to hydrothermal reaction kettle Middle progress hydro-thermal reaction 12h, reaction temperature are 150 DEG C, will react resulting film and are washed with deionized completely, do in an oven Obtain PPS@TiO within dry 12 hours2Photocatalysis membrana.
After tested, PPS@TiO2The porosity of photocatalysis membrana is 74.6%, and the load factor of titanium dioxide is 41.4%.Using Methylene blue simulates liquid organic pollutant and measures photocatalysis performance, after tested, prepared PPS TiO2Photocatalysis membrana is to Asia The catalytic efficiency of methyl blue is 98% or more.Through current scour experimental test, the photocatalysis membrana flux decline 14%, load TiO2It is relatively firm, it is not easily to fall off.
Embodiment 5
1) isopropyl titanate, ammonium sulfate are mixed simultaneously at normal temperature with the solution that ethyl alcohol, water and hydrochloric acid volume ratio are 4:1:2 Stirring obtains TiO to homogeneous2Precursor solution;TiO2The concentration of titanium source is the concentration of 250g/L, sulfate in precursor solution For 10g/L;
2) PPS microporous barrier is placed in ethyl alcohol and is soaked, be then transferred in the nitric acid solution that concentration is 5% and stirred at 20 DEG C It mixes 5 hours.
3) by 20cm2Resulting pretreated PPS microporous barrier immerses 10ml precursor solution and is transferred to hydrothermal reaction kettle Middle progress hydro-thermal reaction 10h, reaction temperature are 200 DEG C, will react resulting film and are washed with deionized completely, do in an oven Obtain PPS@TiO within dry 12 hours2Photocatalysis membrana.
After tested, PPS@TiO2The porosity of photocatalysis membrana is 73.0%, and the load factor of titanium dioxide is 49.3%.Using Methylene blue simulates liquid organic pollutant and measures photocatalysis performance, after tested, prepared PPS TiO2Photocatalysis membrana is to Asia The catalytic efficiency of methyl blue is 99% or more.Through current scour experimental test, the photocatalysis membrana flux decline 16%, load TiO2It is relatively firm, it is not easily to fall off.
Embodiment 6
1) titanium trichloride, ammonium sulfate are mixed and is stirred at normal temperature with the solution that ethyl alcohol, water and hydrochloric acid volume ratio are 6:1:2 It mixes to homogeneous, obtains TiO2Precursor solution;TiO2The concentration of titanium source is 100g/L in precursor solution, the concentration of sulfate is 20g/L;
2) PPS microporous barrier is placed in ethyl alcohol and is soaked, is then transferred in the nitric acid solution that concentration is 20% at 30 DEG C Stirring 2 hours.
3) by 20cm2Resulting pretreated PPS microporous barrier immerses 10ml precursor solution and is transferred to hydrothermal reaction kettle For 24 hours, reaction temperature is 200 DEG C to middle progress hydro-thermal reaction, will react resulting film and is washed with deionized completely, does in an oven Obtain PPS@TiO within dry 12 hours2Photocatalysis membrana.
After tested, PPS@TiO2The porosity of photocatalysis membrana is 74.2%, and the load factor of titanium dioxide is 45.6%.Using Methylene blue simulates liquid organic pollutant and measures photocatalysis performance, after tested, prepared PPS TiO2Photocatalysis membrana is to Asia The catalytic efficiency of methyl blue is 99% or more.Through current scour experimental test, the photocatalysis membrana flux decline 15%, load TiO2It is relatively firm, it is not easily to fall off.
Embodiment 7
1) titanium tetrachloride, ammonium sulfate are mixed and is stirred at normal temperature with the solution that ethyl alcohol, water and hydrochloric acid volume ratio are 5:2:2 It mixes to homogeneous, obtains TiO2Precursor solution;TiO2The concentration of titanium source is 100g/L in precursor solution, the concentration of sulfate is 10g/L;
2) PPS microporous barrier is placed in ethyl alcohol and is soaked, is then transferred in the nitric acid solution that concentration is 20% at 40 DEG C Stirring 1 hour.
3) by 20cm2Resulting pretreated PPS microporous barrier immerses 10ml precursor solution and is transferred to hydrothermal reaction kettle Middle progress hydro-thermal reaction 12h, reaction temperature are 180 DEG C, will react resulting film and are washed with deionized completely, do in an oven Obtain PPS@TiO within dry 12 hours2Photocatalysis membrana.
After tested, PPS@TiO2The porosity of photocatalysis membrana is 76.2%, and the load factor of titanium dioxide is 33.3%.Using Methylene blue simulates liquid organic pollutant and measures photocatalysis performance, after tested, prepared PPS TiO2Photocatalysis membrana is to Asia The catalytic efficiency of methyl blue is 98% or more.Through current scour experimental test, the photocatalysis membrana flux decline 15%, load TiO2It is relatively firm, it is not easily to fall off.
Embodiment 8
1) butyl titanate, ammonium sulfate are mixed simultaneously at normal temperature with the solution that ethyl alcohol, water and hydrochloric acid volume ratio are 6:1:2 Stirring obtains TiO to homogeneous2Precursor solution;TiO2The concentration of titanium source is the concentration of 200g/L, sulfate in precursor solution For 10g/L;
2) PPS microporous barrier is placed in ethyl alcohol and is soaked, is then transferred in the nitric acid solution that concentration is 25% at 25 DEG C Stirring 1 hour.
3) by 20cm2Resulting pretreated PPS microporous barrier immerses 20ml precursor solution and is transferred to hydrothermal reaction kettle Middle progress hydro-thermal reaction 12h, reaction temperature are 200 DEG C, will react resulting film and are washed with deionized completely, do in an oven Obtain PPS@TiO within dry 12 hours2Photocatalysis membrana.
After tested, PPS@TiO2The porosity of photocatalysis membrana is 72.7%, and the load factor of titanium dioxide is 50.1%.Using Methylene blue simulates liquid organic pollutant and measures photocatalysis performance, after tested, prepared PPS TiO2Photocatalysis membrana is to Asia The catalytic efficiency of methyl blue is 99% or more.Through current scour experimental test, the photocatalysis membrana flux decline 17%, load TiO2It is relatively firm, it is not easily to fall off.
Embodiment 9
1) butyl titanate, ammonium sulfate are mixed simultaneously at normal temperature with the solution that ethyl alcohol, water and hydrochloric acid volume ratio are 4:1:2 Stirring obtains TiO to homogeneous2Precursor solution;TiO2The concentration of titanium source is the concentration of 300g/L, sulfate in precursor solution For 15g/L;
2) PPS microporous barrier is placed in ethyl alcohol and is soaked, is then transferred in the nitric acid solution that concentration is 40% at 20 DEG C Stirring 1 hour.
3) by 20cm2Resulting pretreated PPS microporous barrier immerses 15ml precursor solution and is transferred to hydrothermal reaction kettle For 24 hours, reaction temperature is 200 DEG C to middle progress hydro-thermal reaction, will react resulting film and is washed with deionized completely, does in an oven Obtain PPS@TiO within dry 12 hours2Photocatalysis membrana.
After tested, PPS@TiO2The porosity of photocatalysis membrana is 72.1%, and the load factor of titanium dioxide is 53.5%.Using Methylene blue simulates liquid organic pollutant and measures photocatalysis performance, after tested, prepared PPS TiO2Photocatalysis membrana is to Asia The catalytic efficiency of methyl blue is 99% or more.Through current scour experimental test, the photocatalysis membrana flux decline 18%, load TiO2It is relatively firm, it is not easily to fall off.
Comparative example 1
1) butyl titanate, ammonium sulfate are mixed simultaneously at normal temperature with the solution that ethyl alcohol, water and hydrochloric acid volume ratio are 4:1:2 Stirring obtains TiO to homogeneous2Precursor solution;TiO2The concentration of titanium source is the concentration of 150g/L, sulfate in precursor solution For 5g/L;
2) by 20cm2Not pretreated PPS microporous barrier immerses 10ml precursor solution and is transferred in hydrothermal reaction kettle Hydro-thermal reaction 12h is carried out, reaction temperature is 180 DEG C, will react resulting film and is washed with deionized completely, dries in an oven Obtain within 24 hours PPS@TiO2Photocatalysis membrana.
After tested, PPS@TiO2The porosity of photocatalysis membrana is 74.6%, and the load factor of titanium dioxide is 47.8%.Using Methylene blue simulates liquid organic pollutant and measures photocatalysis performance, after tested, prepared PPS TiO2Photocatalysis membrana is to Asia The catalytic efficiency of methyl blue is 88% or more.Through current scour experimental test, the photocatalysis membrana flux decline 72%, load TiO2Largely falling off leads to plug-hole, does not have application value.
Comparative example 2
1) butyl titanate, ammonium sulfate are mixed simultaneously at normal temperature with the solution that ethyl alcohol, water and hydrochloric acid volume ratio are 4:1:2 Stirring obtains TiO to homogeneous2Precursor solution;TiO2The concentration of titanium source is the concentration of 150g/L, sulfate in precursor solution For 5g/L;
2) 10ml precursor solution being transferred to progress hydro-thermal reaction 12h in hydrothermal reaction kettle, reaction temperature is 180 DEG C, Resulting TiO will be reacted2Powder is washed with deionized completely, dries 24 hours obtain TiO in an oven2Nano particle.By institute Prepare TiO2Nano particle is added in casting solution in the ratio that mass fraction is 5% and PPS@TiO is made2Composite photocatalysis Film.
After tested, PPS@TiO2The porosity of composite photocatalysis membrana is 79.1%, and the load factor of titanium dioxide is 5%.Photocatalysis performance, after tested, prepared PPS TiO are measured using methylene blue simulation liquid organic pollutant2It is blended Composite photocatalysis membrane is to the catalytic efficiency of methylene blue 71% or more.Through current scour experimental test, which is urged Change the decline of membrane flux 8%, the TiO of load2Securely, but it is embedded in film, catalytic site is few, and catalytic efficiency is poor more.
The present invention does not address place and is suitable for the prior art.

Claims (6)

1. a kind of load TiO2PPS photocatalysis membrana preparation method, it is characterised in that method includes the following steps:
1) TiO2The preparation of precursor solution: titanium source, sulfate are mixed with the composite solution of ethyl alcohol, water and hydrochloric acid, and in room temperature Lower stirring obtains TiO to homogeneous2Precursor solution;TiO2The concentration of titanium source is 1 ~ 500g/L, sulfate in precursor solution Concentration is 1 ~ 50g/L;The volume ratio of the ethyl alcohol, water and hydrochloric acid is 2-6:1-3:1-3;
2) pretreatment of PPS microporous barrier: PPS microporous barrier being placed in ethyl alcohol and is soaked, and being then transferred to concentration is 5 ~ 55wt.%'s It is stirred 0.5 ~ 8 hour at 10 ~ 50 DEG C in nitric acid solution;
3) high temperature hydro-thermal method in-situ preparation PPS TiO2Photocatalysis membrana: the PPS microporous barrier that step 2 obtains is immersed into step 1) and is obtained TiO2In precursor solution, it is together transferred to progress 2 ~ 30h of hydro-thermal reaction in hydrothermal reaction kettle, reaction temperature is 80 ~ 240 DEG C, PPS@TiO is obtained after washing and drying2Photocatalysis membrana;
0.01 ~ 1 milliliter of TiO is added in PPS microporous barrier every square centimeter2Precursor solution.
2. load TiO according to claim 12PPS photocatalysis membrana preparation method, it is characterised in that titanium source concentration is 10 ~ 200g/L, sulfate concentration are 2 ~ 10g/L, and ethyl alcohol, water and hydrochloric acid volume ratio are 3-5:1-3:1-3.
3. load TiO according to claim 12PPS photocatalysis membrana preparation method, it is characterised in that the titanium source is Butyl titanate, titanium tetrachloride, titanium sulfate, titanium trichloride, isopropyl titanate, cyclopentadienyl titanium dichloride, titanium tetrafluoride or titanium potassium oxalate At least one of.
4. load TiO according to claim 12PPS photocatalysis membrana preparation method, it is characterised in that the sulfate It is at least one of ferric sulfate, ammonium sulfate, titanium sulfate, sodium sulphate, magnesium sulfate, copper sulphate, potassium sulfate or aluminum sulfate.
5. load TiO according to claim 12PPS photocatalysis membrana preparation method, it is characterised in that it is every square centimeter 0.02 ~ 0.04 milliliter of TiO is added in PPS microporous barrier2Precursor solution.
6. a kind of PPS@TiO that the preparation method as described in claim 1-5 is any obtains2Photocatalysis membrana is in organic dye waste water Application.
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CN113713627A (en) * 2021-08-13 2021-11-30 清华大学 Ceramic ultrafiltration membrane with catalytic function and preparation method and application thereof
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