4期 环境科学 127 loop reactor. Applied Catalysis B: Environ mental, 1998 tocatalytic oxidation reactors, Part I: Flat" plate configure 16:347-357 tion.J Solar Energy Engineering, 1994, 116 Bactericidal and detoxification effects ith titaniu m dioxide i m mobilized on large silica gel beads to TiO thin fil m phot catalysts. Environ. Sci. Technol. 998,32(5):726~728 19 Burns A R et al. Effect of inorganic ions in heterogeneous ganis in water using supported catalysts. TiO on sand hot catalysis of TCE. J. Environ mental ater Res,,l991,25(10):1169-1176 1999,Jn,,77~85 27 Matthe ws W R et al. Destruction of phenol in water with 20 Vidal A et al. Mogyorodi. Photocatalytic degradation of thio sun, sand, and phot catalysis. Solar Energy, 1992, 49(6) arba mate herbicide active ing re dients in water. Applied 507~513 Catalysis B: Environ mental, 1999, 21: 259-267. :8 Wyness P et al. Perfor mance of nonconcentrating solar phor 21 Crittenden C j et al. Solar detoxification of fuel conta min tocatalytic oxidation reactors, Part II: shallow pond configur ration.J. Solar Energy Engineering, 1994, 116:8-13. n ment Research, 1996, 68(3): 270-278 : 9, Peill J N et al. Iron( Ill)-doped Q sized TiO coatings in a 22 Zhang Y et al. Fixed bed phot catalysts for solar deconta mr fiber optic cable phot oche mical reactor. J. Photoche m. Pho nation of water. Environ. Sci. Technol., 1994, 28(3) tobio. A: Che m,:1 997 435-44 30 Ray K A et al. Novel pht ocatalytic reactor 23 Herrmann FMet al, TiO- based solar photoc cation. Environ mental and Energy Engineering, 1998,4 fication of water containing organic pollutants. Case studies (2): 477-483 of 2, t dichlorophenoxyaceticacid (2, +D) and of benzofur 31 Saltiel C et al. Perfor mance analysis of solar water detoxifr ran. Applied Catalysis B: Environ mental, 1998,17: 15 cation syste ms by detailed si mulation, (In): AS ME- JsES KSES International Solar Energy Conference. New York 24 Wyness P et al. Perfor mance of nonconcentrating solar phor ASME,1992,21-28 ≤ ∞√ 16 ∗ 1 1 ≤∏∏2 ∏ ¬ ¬ ¬ 1 °1 °2 1 ≤1 118 ∗ 1 ∏ 1 ∞ ∏ × ≤ ∞ 1 ∞√ ∞ 1 ∗ 1 ∂1 1 ° 2 √ 1 ≤ ∞√ 21 ∗ 1 ≤ ≤ 1 ≥¬ ∏22 ∏∏¬2 • ∞√2 68 ∗ 1 ≠ 1 ƒ¬22 ∞√1 ≥1 ×1 28 ∗ 1 2 1 ×2¬2 ∏1 ≤ ∏ 2¬ 2⁄ ∏2 ≤ ∞√ 17 ∗ 1 • ° 1 ° 2 ¬ ° ƒ2 ∏2 ≥∞ ∞ 116 ∗ 1 ≥∏ 1 ¬ × ∞√1 ≥1 ×1 32 ∗ 1 • 1 °¬√ ∏2 ∏ ∏ 1 × 1 • 1 25 ∗ 1 • 1 ⁄∏ ∏ ≥∞ 49 ∗ 1 • ° 1 ° 2 ¬ ° ∏2 1 ≥∞ ∞ 116 ∗ 1 1 ° 1 2 ±2 × 21 °1 °2 1 ≤1 108 ∗ 1 1 √ ∏2 ∞√ ∞ ∞ 44 ∗ 1 ≥≤ 1 ° ¬2 ∏1 ≥ ∞2≥∞≥2 ≥∞≥ ≥ ∞ ≤ ≠ ≥ ∞ 1 ∗ 1 期 环 境 科 学