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太阳能固定膜光催化反应器的效率评价 被引量:6

Efficiency evaluation of solar photocatalytic reactor with immobilized catalyst
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摘要 以结构简单、光能利用率高的复合抛物面采光板为采光元件,以采用溶胶-凝胶法负载在比表面积大、化学性质稳定的玻璃纤维网上制得的高活性TiO2固定催化剂制作催化组件,自主设计了一种新型的太阳能光催化反应器。以草酸铁钾化学光量计曝光试验对其光学性能进行了评价,光子采集效率约为0.759。由于固定化催化剂活性良好、装填结构合理,本装置降解苯酚表观量子产率可以达到相同结构悬浆催化体系反应器的1/2,因而具有良好的实用性。 A novel solar photocatalytic reactor was developed, in which compound parabolic concentrator was used as solar collecting component, and TiO2 catalyst supported on glass fiber mesh by the sol-gel method was used as catalyst. The photonic collection efficiency factor was estimated to be about 0. 759 by potassium ferrioxalate actinometry. As the result of reasonable fixation configuration and appropriate catalytic activity of immobilized catalyst, the apparent quantum yield of phenol degradation in the reactor could reach up to 1/2 of that of the reactor with slurry catalyst system, which suggests that the reactor is of good practicability.
作者 林少华 李田
机构地区 同济大学污染控制与资源化国家重点实验室
出处 《化工学报》 EI CAS CSCD 北大核心 2008年第1期90-95,共6页 CIESC Journal
基金 国家高技术研究发展计划项目(2002AA601250)~~
关键词 太阳能光催化 固定膜 光子采集效率 草酸铁钾光量计 表观量子产率 solar photocatalysis immobilized catalyst photonic collection efficiency factor potassium ferrioxalate actinometer apparent quantum yield
分类号 X382 [环境科学与工程—环境工程] X505 [环境科学与工程—环境工程]
作者简介 林少华(1975-),男,博士研究生。 联系人:李田。
  • 相关文献

参考文献17

  • 1Minero C, Pelizzetti E, Malato S, Blanco J. Large solar plant photocatalytic water decontamination: degradation of pentachorophenol. Chemosphere, 1993, 26 ( 12 ): 2103-2119.
  • 2Malato S, Blanco J, Richter C, Curco D, Gimenez J. Low concentration CPC collectors for photocatalytic water detoxification: comparison with a medium concentration solar collector. Wat. Sci. Tech. , 1997, 35 ( 4 ): 157-164.
  • 3Blanco J, Malato S, Fernandez P, Vidal A, Morales A, Trincado P, Oliveira J C, Minero C, Musci M, Casalle C, Brunotte M, Tratzky S, Dischinger N, Funken K H, Sattler C, Vincent M, Collares-pereira M, Mendes J F, Rangel C M. Compound parabolic concentrator technology development to commercial solar detoxification applications. Sol. En., 1999, 67 (4/5/6): 317-330.
  • 4Beydoun D, Amal R. Implications of heat treatment on the properties of a magnetic iron oxide-titanium dioxide photocatalyst. Mater. Sci. Eng. B, 2002, 94 (1): 71-81.
  • 5Chen Feng, Xie Yinde, Zhao Jincai, Lu Gongxuan. Photocatalytic degradation of dyes on a magnetically separated photocatalyst under visible and UV irradiation. Chemosphere, 2001, 44 (5): 1159-1168.
  • 6Gao Yuan, Chen Baohua, Li Hulin, Ma Yongxiang. Preparation and characterization of a magnetically separated photocatalyst and its catalytic properties. Mater. Chem. Phys. , 2003, 80 (1): 348-355.
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  • 8Bekbolet M, Lindner M, Weichgrebe D, Bahnemann D W. Photocatalytic detoxification with the thin-film fixed-bed reactor (TFFBR): cleanup of highly polluted landfill effluents using a novel TiO2-photocatalyst. Sol. En., 1996, 56 (5): 455-469.
  • 9Welford W T, Winston R. The Optics of Nonimaging Concentrators (Light and Solar Energy) ( 非成像聚光器光学(光和太阳能)). Wang Guoqiang (王国强), trans. Beijing: Science Press, 1987:47-65.
  • 10Li Tian (李田), Qiu Yanling (仇雁翎), Lu Yan (吕妍). Preparation method of TiO2 film supported on fiberglass net: CN, 1721059. 2006-01-18.

二级参考文献8

  • 1Minero C,Pelizzetti E,Malato S,et al.Large solar plant photocatalytic water decontamination:degradation of pentachorophenol[J].Chemosphere,1993,26 (12):2103 -2119.
  • 2Malato S,Blanco J,Richter C,et al.Low-concentration CPC collectors for photocatalytic water detoxification:comparison with a medium concentrationg solar collector[J].Water Sci Technol,1997,35(4):157 -164.
  • 3Blanco J,Malato S,Fernandez P,et al.Compound parabolic concentrator technology development to commercial solar detoxification applications[J].Solar Energy,1999,67 (4-6):317 -330.
  • 4Ajona J I,Vidal A.The use of CPC collectors for detoxification of contaminated water:design,construction and preliminary results[J].Solar Energy,1999,67 (68):109-120.
  • 5Bockelmann D,Weichgrebe D,Goslich R,et al.Concentrating vs.non-concentrating reactors for solar water detoxification[J].Sol Energy Mater Sol Cells,1995,38:441-451.
  • 6Goslich R,Dillert R,Bahnemann D W.Solar water treatment:principles and reactors[J].Water Sci Technol,1997,35:137-148.
  • 7Bekbolet M,Lindner M,Weichgrebe D,et al.Photocatalytic detoxification with the thin-film fixed-bed reactor (TFFBR):clean-up of highly polluted landfill effluents using a novel TiO2-photocatalyst[J].Solar Energy,1996,56(5):455 -469.
  • 8Malato S,Blanco J,Richter C,et al.Optimization of preindustrial solar photocatalytic mineralization of commercial pesticides:Application to pesticide container recycling[J].Appl Catal B:Environmental,2000,25:31-38.

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同被引文献99

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二级引证文献20

化工学报
2008年 第1期

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