自从光催化技术应用于水处理以来,光催化反应器的研究就有了一些报道.本文对影响光催化反应器效率的因素如光源种类、反应器结构、催化剂状态等进行了分析,总结了近年来国内外研制及应用的一些典型的光催化反应器,给出了其结构图.指出了光催化氧化法应用过程中需要解决的一些关键问题.
参考文献
| [1] | Matsui M;Shibata K .[J].Journal of Japanese Soc Color Material,2001,74(12):607. |
| [2] | Arslan-Alaton I;Balcioglu I A .[J].AATCC Review,2002,2(03):33. |
| [3] | Jang H D;Kim S K;Kim S J .[J].Journal of Nanoparticle Research,2001,3(2-3):141. |
| [4] | Chan Y C;Chen J N;Lu M C .[J].CHEMOSPHERE,2001,45(01):29. |
| [5] | Vidal A;Dinya Z;Mogyorodi Jr F .[J].Applied Catalysis B:Environmental,1999,21(04):259. |
| [6] | Vinodgopal K;Kamat P V .[J].Environmental Science and Technology,1995,29(03):841. |
| [7] | 史月萍,杨祝红,冯新,郑仲,陆小华.掺铂二氧化钛纤维光催化降解氯仿的研究[J].催化学报,2003(09):663-668. |
| [8] | 陈士夫,梁新,赵梦月.不同制备条件对TiO2/beads光催化活性的影响[J].感光科学与光化学,1999(01):25-31. |
| [9] | Wyness P;Klausner J F;Goswami D Y .[J].Journal of Solar Energy Engineering,1994,116(01):2. |
| [10] | Dionysiou D D;Khodadoust A P;Kern A M .[J].Applied Catalysis B:Environmental,2000,24(3-4):139. |
| [11] | Parra S;Malato S;Blanco J .[J].Water Science and Technology,2001,44(05):219. |
| [12] | 徐晓凡,王银叶,史艳娇.光催化反应器的影响因素及开发方向[J].环境保护,2003(09):53-56. |
| [13] | 谢翼飞,李国欣,李旭东.TiO2光催化反应器处理废水的研究现状与进展[J].给水排水,2002(08):64-67. |
| [14] | Sunada K;Kikuchi Y;Hashimoto K .[J].Environmental Science and Technology,1998,32(05):726. |
| [15] | Matthews R W .[J].Water Research,1991,25(10):1169. |
| [16] | Wyness P;Klausner J F;Goswami D Y .[J].Journal of Solar Energy Engineering,1994,116(01):8. |
| [17] | 邢核,王怡中.多相光催化水处理技术发展过程中反应器研究的现状及发展趋势[J].环境科学,2001(04):123-127. |
| [18] | Lu M C;Roam G D;Chen J N .[J].Journal of Photochemistry and Photobiology A:Chemistry,1993,76(1-2):103. |
| [19] | Goslich R;Dillert R;Bahnemann D .[J].Water Science and Technology,1997,35(04):137. |
| [20] | Herrmann J M;Disdier J;Pichat P .[J].Applied Catalysis B:Environmental,1998,17(1-2):15. |
| [21] | Herrmann J M;Matos J;Disdier J .[J].Catalysis Today,1999,54(2-3):255. |
| [22] | Cho I H;Park T J;Kim H Y .[J].Water Science and Technology,2002,2(01):299. |
| [23] | Angelidis T N;Koutlemani M;Poulios I .[J].Applied Catalysis B:Environmental,1998,16(04):347. |
| [24] | Kobayakawa K;Sato C;Sato Y .[J].Journal of Photochemistry and Photobiology A:Chemistry,1998,118(01):65. |
| [25] | Crittenden J C;Zhang Y;Hand D W .[J].Water Environment Research,1996,68(03):270. |
| [26] | Sabate J;Anderson M A;Kikkawa H .[J].Journal of Catalysis,1991,127(01):167. |
| [27] | Haarstrick A;Kut O M;Heinzle E .[J].Environmental Science and Technology,1996,30(03):817. |
| [28] | Tseng I H;Chang W C;Wu J C S .[J].Applied Catalysis B:Environmental,2002,37(01):37. |
| [29] | Kang M .[J].Applied Catalysis B:Environmental,2002,37(03):187. |
| [30] | Sczechowski G J .[J].Noble Chem Eng Sci,1995,50(20):3163. |
| [31] | Ray AK.;Beenackers AACM. .NOVEL SWIRL-FLOW REACTOR FOR KINETIC STUDIES OF SEMICONDUCTOR PHOTOCATALYSIS[J].AIChE Journal,1997(10):2571-2578. |
| [32] | Sengupta T K;Kabir M F;Ray A K .[J].Industrial and Engineering Chemistry Research,2001,40(23):5268. |
| [33] | Peill N J;Hoffmann M R .[J].Environmental Science and Technology,1995,29(12):2974. |
| [34] | Peill N J;Hoffmann M R .[J].Environmental Science and Technology,1996,30(09):2806. |
| [35] | Peill N J;Bourne L;Hoffmann M R .[J].Journal of Photochemistry and Photobiology A:Chemistry,1997,108(2-3):221. |
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