CN1493396A - Nano-crystal titanium dioxide photo catalyst of loading type built up metal and its preparation - Google Patents
Nano-crystal titanium dioxide photo catalyst of loading type built up metal and its preparation Download PDFInfo
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- CN1493396A CN1493396A CNA031508758A CN03150875A CN1493396A CN 1493396 A CN1493396 A CN 1493396A CN A031508758 A CNA031508758 A CN A031508758A CN 03150875 A CN03150875 A CN 03150875A CN 1493396 A CN1493396 A CN 1493396A
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Abstract
A carried nano-crystal TiO2 photocatalyst doped by the metals for treating organic sewage features that the stainless steel sheet is used as catalyst carrier, the La and Ce doped monohydrated empholite, trihydrated empholite or gamma-Al2O3 is used as the transition layer of carrier, and the nano-crystal TiO2 doped by Fe, Ni, Zn, Ag, Ce, V, or La is used as active component. Its advantages are high strength, stability and catalytic activity, and large effective surface area.
Description
Technical field
The present invention relates to nano crystal titanium dioxide light catalyst of a kind of composite metal of support type that is applied to wastewater treatment and preparation method thereof, be particularly related to a kind of poisonous and harmful, bio-refractory treatment of Organic Wastewater of being applied to, with nano crystal titanium dioxide light catalyst of the immobilized composite metal of corrosion resistant plate and preparation method thereof.
Background technology
Nanocrystalline TiO
2Material has broad application prospects at aspects such as the degraded of environmental contaminants, sterilization, deodorizing, scrubbing as the photochemical catalyst of efficient, nontoxic, long service life, particularly waits advantage fully having degradation efficiency height, catabolite salinity aspect the processing of poisonous and harmful, bio-refractory organic wastewater.The more research of report at present is with superfine Ti O
2Powder suspension is in liquid or with nanocrystalline TiO
2Load on the materials such as glass, silicate granules, polymeric membrane, netted or flat metal and be used as photochemical catalyst.Because the titanium dioxide of suspended state runs off easily, cause its practical value not high.Therefore, to the brilliant TiO of loaded nano
2The development of photochemical catalyst is subjected to people's attention day by day.
Japan Patent (spy opens 2002-47558) report is a carrier with metallic plate (Titanium, titanium alloy, stainless steel), and the catalytic activity thin layer is to be that internal layer, intermediate layer are that Titanium and titanyl compound, skin are the photochemical catalyst of titanyl compound with the Titanium.Japan Patent (spy opens 2002-4068) report is a matrix with the corrosion resistant plate, and the intermediate layer is the oxide of Cr, Si, Al, Fe, and the surface is covered with TiO
2Photochemical catalyst etc.Take a broad view of the brilliant TiO of the loaded nano of now having reported
2Photochemical catalyst, aspects such as its intensity at carrier, specific area, activity of such catalysts, machine-shaping property and light source utilization ratio are not accomplished optimum combination as yet.
Summary of the invention
The objective of the invention is to, a kind of immobilized nanocrystalline TiO of stainless sheet steel with high strength, high activity, high stability and well processed processability (adapting to various forms of reactors) is provided
2Photochemical catalyst.
The said TiO of the present invention
2Photochemical catalyst comprises: be the nanocrystalline TiO of coating-doping metal on immobilized carrier transition zone and the carrier transition zone on catalyst support substrate, the carrier substrate with the corrosion resistant plate
2, it is characterized in that, said carrier substrate be 0.1~1.5mm thick contain the al stainless steel thin plate; Said carrier transition zone is a diaspore, gibbsite or the γ-Al that is mixed with lanthanum and cerium
2O
3, the content of lanthanum and cerium is respectively a diaspore, gibbsite or γ-Al
2O
32~20% of weight, preferred carrier transition zone is the γ-Al that is mixed with lanthanum and cerium
2O
3The nanocrystalline TiO of said doping metals
2Nanocrystalline TiO for metal Fe, the Ni, Zn, Ag, Ce, V or the La that are mixed with
2, metal-doped amount is TiO
22~30% of weight.
The said Preparation of catalysts of the present invention comprises the steps:
(1) preparation of complex carrier substrate:
With a diaspore, gibbsite or γ-Al
2O
3Mixed by 1: 1~1: 10 weight ratio with water, adding accounts for a diaspore, gibbsite or γ-Al
2O
3The lanthanum nitrate of dry powder weight 2~20% and cerous nitrate, with the nitric acid adjust pH is 1~4, stir and formed colloidal sol in 2~8 hours, under vacuum condition, colloidal sol is coated in through at 400~950 ℃, contain the al stainless steel substrate surface under the air atmosphere after the roasting heat treatment in 2~8 hours, in 60~80 ℃ of dry 2h, 100~180 ℃ of oven dry 2~5h form the complex carrier substrate;
(2) preparation of catalyst activity component:
The catalyst activity component adopts the sol-gel process preparation, the volume ratio of components of colloidal sol is the positive fourth fat of metatitanic acid: ethanol: water=1: 2~8: 0.4~1, under stirring condition, composite metal nitrate is added dropwise in the titanium alkoxide solution and is hydrolyzed, the metal that mixes is Ag, Fe, Ni, Zn, Ce, V or La, and metal-doped amount is TiO
22~30% of weight, Titanium alkoxide after the hydrolysis leaves standstill the formation gel, in 60~80 ℃ of dryings 2~4 hours, at 100~180 ℃ of oven dry 2~5h, be warming up to 450~650 ℃ of activation 1~3 hour by 2~10 ℃/min then, make pulverous metal Compositional type TiO
2
(3) immobilized:
To make pulverous metal Compositional type TiO by step (2)
2Wet lapping is made the suspension of 20~80 (wt) %, this suspension loaded to by step (1) make on the complex carrier substrate and at 80 ℃ of down dry 2~4h, 120 ℃ of drying 2~4h, the heating rate by 0.5~5 ℃/min is heated to 550 ℃ then, insulation 2~4h promptly gets the said catalyst of the present invention.
Catalyst of the present invention is applicable to wastewater treatment, is specially adapted to contain the processing of poisonous harmful, bio-refractory organic wastewater.It is a catalyst support substrate with the stainless steel thin slice, to be mixed with a diaspore, gibbsite, the γ-Al of lanthanum and cerium
2O
3Deng as the carrier transition zone, load is mixed with the nanocrystalline TiO of metal Fe, Ni, Zn, Ag, Ce, V or La
2Be the catalyst activity component.Compared with prior art, this catalyst has carrier structure intensity height, chemical property is stable, heat resistance is strong, active film has the nanoscale grain diameter characteristic, characteristics such as effectively the light-use surface area is big, catalytic activity is strong, processing characteristics is good, can adapt to various forms of reactors, be a kind of use in waste water treatment catalyst with wide prospect in industrial application and higher commercial value.
Description of drawings
Fig. 1 is the Electronic Speculum figure of the nano crystal titanium dioxide light catalyst of the composite metal of the said support type of the present invention
Fig. 2 photocatalytic degradation chlorobenzene waste water result
Wherein:
●~chlorobenzene (initial concentration is 160mg/L) concentration curve;
▲~chlorobenzene (initial concentration is 115mg/L) concentration curve;
■~chlorobenzene (initial concentration is 55mg/L) concentration curve;
◆~chlorobenzene (initial concentration is 35mg/L) concentration curve.
Specific implementation method
The invention will be further described below by embodiment, and the cited case does not influence protection scope of the present invention:
Embodiment 1
With γ-Al
2O
3Mixed by 1: 1 weight ratio with water, adding accounts for γ-Al
2O
3The lanthanum nitrate of dry powder weight 2% and cerous nitrate, with the nitric acid adjust pH is 1, stir and formed colloidal sol in 2 hours, under vacuum condition, colloidal sol is coated in through at 850 ℃, contain the al stainless steel substrate surface under the air atmosphere after the roasting heat treatment in 2 hours, in 60 ℃ of dry 2h, 105 ℃ of oven dry 2h form the complex carrier substrate;
The catalyst activity component adopts the sol-gel process preparation, the volume ratio of components of colloidal sol is the positive fourth fat of metatitanic acid: ethanol: water=1: 2: 0.4, under stirring condition composite metal nitrate is added dropwise in the titanium alkoxide solution and is hydrolyzed, the metallic element of doping is Ag, and the doping of metal A g is TiO
22% of weight, the Titanium alkoxide after the hydrolysis leaves standstill the formation gel, in 60 ℃ of dryings 2 hours, at 105 ℃ of oven dry 2h, is warming up to 450 ℃ by 2 ℃/min then and activates 1 hour, makes pulverous metal Compositional type TiO
2
To make pulverous metal Compositional type TiO by above-mentioned
2Wet lapping is made the suspension of 20 (wt) %, with this suspension load to above-mentioned make on the complex carrier substrate and 80 ℃ down dry 2h, 120 ℃ of dry 2h, the heating rate by 0.5 ℃/min is heated to 550 ℃ then, insulation 2h promptly gets the said catalyst of the present invention.
Embodiment 2
One diaspore and water is mixed by 1: 10 weight ratio, add the lanthanum nitrate and the cerous nitrate that account for a diaspore dry powder weight 20%, with the nitric acid adjust pH is 4, stir and formed colloidal sol in 8 hours, under vacuum condition, colloidal sol is coated in through at 950 ℃, contain the al stainless steel substrate surface under the air atmosphere after the roasting heat treatment in 8 hours, 80 ℃ of dry 2h, 180 ℃ of oven dry 5h form the complex carrier substrates;
The catalyst activity component adopts the sol-gel process preparation, the volume ratio of components of colloidal sol is the positive fourth fat of metatitanic acid: ethanol: water=1: 8: 1, under stirring condition composite metal nitrate is added dropwise in the titanium alkoxide solution and is hydrolyzed, the metal of doping is La, and the doping of metal La is TiO
230% of weight, the Titanium alkoxide after the hydrolysis leaves standstill the formation gel, in 80 ℃ of dryings 4 hours, at 180 ℃ of oven dry 5h, is warming up to 650 ℃ by 10 ℃/min then and activates 3 hours, makes pulverous metal Compositional type TiO
2
Make pulverous metal Compositional type TiO with above-mentioned
2Wet lapping is made the suspension of 80 (wt) %, with this suspension load to above-mentioned make on the complex carrier substrate and 80 ℃ down dry 4h, 120 ℃ of dry 4h, the heating rate by 5 ℃/min is heated to 550 ℃ then, insulation 4h promptly gets the said catalyst of the present invention.
Catalyst application example of the present invention:
The situation that catalyst of the present invention is used for degrading nitrobenzene waste water is seen embodiment 3 and embodiment 4, and the situation of the chlorobenzene waste water that is used to degrade is seen embodiment 5
Embodiment 3
Photo catalysis reactor is cylindric, internal diameter 40mm, and sheet catalyst is rolled into cylinder type, is close to reactor wall, and light source is the ultraviolet lamp tube of wavelength 253.7nm, and fluorescent tube inserts below the liquid level.Volume of water sample is 150mL, and the nitrobenzene initial concentration is 101.8mg/L, and pH is 3, and the aeration flow is 20ml/min.Catalyst system therefor and result see Table 1.
Table 1 photocatalytic degradation nitrobenzene waste water result (aeration+UV+Cat.)
Catalyst light application time/h 0.5 1 1.5 2 2.5 3
Concentration/mg/L 83.68 76.04 64.75 55.50 43.50 35.60
Pure nanocrystalline TiO
2
Clearance/% 16.82 24.41 35.64 44.83 56.76 64.61
Concentration/mg/L 62.35 54.51 48.86 33.68 22.50 14.75
Compound cerium catalyst
Clearance/% 38.48 46.22 51.79 66.77 77.80 85.45
Concentration/mg/L 81.80 72.55 54.05 44.80 34.55 21.35
Compound iron catalyst
Clearance/% 24.36 32.92 50.02 58.58 68.05 80.26
Concentration/mg/L 82.15 69.60 57.30 44.95 34.29 24.34
Compound zinc catalyst
Clearance/% 18.34 30.82 43.04 55.32 65.91 75.81
Concentration/mg/L 101.05 98.95 88.90 82.05 71.55 70.05
Compound Raney nickel
Clearance/% 13.63 15.43 24.02 29.87 38.85 40.13
Concentration/mg/L 86.30 72.00 66.45 55.35 45.05 39.25
The compounding vanadium catalyst
Clearance/% 14.21 23.43 33.95 44.98 55.22 60.98
Embodiment 4
Photo catalysis reactor is cylindric, internal diameter 40mm, and load has the stainless steel substrates of composite catalyst to make cylinder type, is close to reactor wall, and light source uses the ultraviolet lamp tube of wavelength as 253.7nm, and fluorescent tube inserts below the liquid level.Volume of water sample is 150mL, and nitrobenzene initial concentration: 101.8mg/L, pH are 3, and the aeration flow is 20ml/min, H
2O
2Addition is 100ppm.Catalyst system therefor and result see Table 2.
Table 2 photocatalytic degradation nitrobenzene waste water result (aeration+UV+Cat.+H
2O
2)
0.5 1 1.5 2 2.5 3
Concentration/mg/L 63.70 42.15 27.40 13.97 9.75 4.95
Pure nanocrystalline TiO
2
Clearance/% 36.68 58.10 72.76 86.11 90.31 95.08
Concentration/mg/L 56.53 36.36 24.07 15.89 8.78 4.71
Compound cerium catalyst
Clearance/% 44.22 64.12 76.25 84.32 91.34 95.35
Concentration/mg/L 61.25 36.70 21.85 11.03 4.33 1.50
Compound iron catalyst
Clearance/% 43.37 66.07 79.80 89.80 96.00 98.61
Concentration/mg/L 68.26 50.10 35.40 25.65 19.70 13.50
Compound zinc catalyst
Clearance/% 32.15 50.20 64.81 74.50 80.42 86.58
Concentration/mg/L 89.97 61.20 48.44 38.47 32.67 28.74
Compound Raney nickel
Clearance/% 23.10 47.69 58.60 67.12 72.08 75.44
Concentration/mg/L 68.80 49.45 33.89 27.01 22.25 19.50
The compounding vanadium catalyst
Clearance/% 31.61 50.84 66.31 73.15 77.88 80.62
Embodiment 5
Provide the nanocrystalline TiO that makes composite silver under the condition of the present invention among Fig. 2
2Photochemical catalyst is at wavelength 253.7nm, intensity of illumination 2830 μ w/cm
2, former water pH is 8 o'clock, the relation of light-catalyzed reaction time and the degraded of chlorobenzene concentration.
Claims (3)
1, a kind of nano crystal titanium dioxide light catalyst that is used for the composite metal of support type of poisonous and harmful, bio-refractory treatment of Organic Wastewater, said photochemical catalyst comprises: be the nanocrystalline TiO of coating-doping metal on immobilized carrier transition zone and the carrier transition zone on catalyst support substrate, the carrier substrate with the corrosion resistant plate
2, it is characterized in that, said carrier substrate be 0.1~1.5mm thick contain the al stainless steel plate; Said carrier transition zone is a diaspore, gibbsite or the γ-Al that is mixed with lanthanum and cerium
2O
3, the content of lanthanum and cerium is respectively a diaspore, gibbsite or γ-Al
2O
32~20% of weight; The nanocrystalline TiO of said doping metals
2Nanocrystalline TiO for metal Fe, the Ni, Zn, Ag, Ce, V or the La that are mixed with
2, metal-doped amount is TiO
22~30% of weight.
As the said catalyst of claim 1, it is characterized in that 2, wherein said carrier transition zone is the γ-Al that is mixed with lanthanum and cerium
2O
3
3, preparation is characterized in that as the method for claim 1 or 2 said catalyst, and said preparation method comprises and comprising the steps:
(1) with a diaspore, gibbsite or γ-Al
2O
3Mixed by 1: 1~1: 10 weight ratio with water, adding accounts for a diaspore, gibbsite or γ-Al
2O
3The lanthanum nitrate of dry powder weight 2~20% and cerous nitrate, with the nitric acid adjust pH is 1~4, stir and formed colloidal sol in 2~8 hours, under vacuum condition, colloidal sol is coated in through at 400~950 ℃, contain the al stainless steel substrate surface under the air atmosphere after the roasting heat treatment in 2~8 hours, in 60~80 ℃ of dry 2h, 100~180 ℃ of oven dry 2~5h form the complex carrier substrate;
(2) the catalyst activity component adopts the sol-gel process preparation, the volume ratio of components of colloidal sol is the positive fourth fat of metatitanic acid: ethanol: water=1: 2~8: 0.4~1, under stirring condition, composite metal nitrate is added dropwise in the titanium alkoxide solution and is hydrolyzed, the metal that mixes is Ag, Fe, Ni, Zn, Ce, V or La, and metal-doped amount is TiO
22~30% of weight, Titanium alkoxide after the hydrolysis leaves standstill the formation gel, in 60~80 ℃ of dryings 2~4 hours, at 100~180 ℃ of oven dry 2~5h, be warming up to 450~650 ℃ of activation 1~3 hour by 2~10 ℃/min then, make pulverous metal Compositional type TiO
2
(3) will make pulverous metal Compositional type TiO by step (2)
2Wet lapping is made the suspension of 20~80 (wt) %, this suspension loaded to by step (1) make on the complex carrier substrate and at 80 ℃ of down dry 2~4h, 120 ℃ of drying 2~4h, the heating rate by 0.5~5 ℃/min is heated to 550 ℃ then, insulation 2~4h promptly gets the said catalyst of the present invention.
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
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CN100375649C (en) * | 2005-12-27 | 2008-03-19 | 中国科学院上海硅酸盐研究所 | Method for preparing kernel-shell structure, visible light catalysis activity type nanometer composite material |
CN102219281A (en) * | 2010-04-13 | 2011-10-19 | 中国水利水电科学研究院 | Photocatalytic water purification device and manufacturing method of photocatalytic water purification device |
CN102241450A (en) * | 2010-05-11 | 2011-11-16 | 上海牧而建筑科技有限公司 | Device for catalyzing wastewater processing with solar visible light |
CN106830232A (en) * | 2015-03-04 | 2017-06-13 | 克里斯坦·瓦塞尔·齐斯 | Composite and sterilization method with sterilized surface |
CN109455810A (en) * | 2018-12-24 | 2019-03-12 | 河海大学 | A kind of light-catalyzed reaction plate and the preparation method and application thereof |
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2003
- 2003-09-09 CN CN 03150875 patent/CN1209190C/en not_active Expired - Fee Related
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
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CN100375649C (en) * | 2005-12-27 | 2008-03-19 | 中国科学院上海硅酸盐研究所 | Method for preparing kernel-shell structure, visible light catalysis activity type nanometer composite material |
CN102219281A (en) * | 2010-04-13 | 2011-10-19 | 中国水利水电科学研究院 | Photocatalytic water purification device and manufacturing method of photocatalytic water purification device |
CN102219281B (en) * | 2010-04-13 | 2013-07-10 | 中国水利水电科学研究院 | Photocatalytic water purification device and manufacturing method of photocatalytic water purification device |
CN102241450A (en) * | 2010-05-11 | 2011-11-16 | 上海牧而建筑科技有限公司 | Device for catalyzing wastewater processing with solar visible light |
CN106830232A (en) * | 2015-03-04 | 2017-06-13 | 克里斯坦·瓦塞尔·齐斯 | Composite and sterilization method with sterilized surface |
CN109455810A (en) * | 2018-12-24 | 2019-03-12 | 河海大学 | A kind of light-catalyzed reaction plate and the preparation method and application thereof |
CN109455810B (en) * | 2018-12-24 | 2021-05-11 | 河海大学 | Photocatalytic reaction plate and preparation method and application thereof |
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