dc.relation.reference | 1. Abdullah, A. Z., M. Z. A. Bakar and S. Bhatia, Combustion of chlorinated volatile organic compounds (VOCs) using bimetallic chromium-copper supported on modified H-ZSM-5 catalyst. J. Hazardous Materials, 129(1-3), 39-49 (2006).
2. Anderson, R. B., K. C. Stein, J.J. Feenan and L. J. E. Hofer, Industry Engineering Chem. ,53, 809 (1961).
3. Aranzabal, A., J.A. Gonzalez-Marcos, J. L. Ayastuy and J. R. Gonzalez-Velasco, Kinetic of Pd/alumina catalysted 1,2-dichloroethane gas-phase oxidation. Chemical Engineering Science, 61(11), 3564-3576 (2006).
4. Benson, S.W and A.E. Axworthy, J. Chem. Phys., 26, 1718-1726 (1959).
5. Bond, G. C., Heterogeneous Catalytic-Principles and Applications, 2nd ed., Oxford University Press, New York, NY (1987).
6. Boudart, M. and G. Djega-Mariadassou, Kinetic of heterogeneous catalytic reactions, Princeton University Press (1984).
7. Brink, R. W. V. R., R. Louw and P. Mulder, Formation of polychlorinated benzenes during the catalytic combustion of chlorobenzene using a Pt/γ-Al2O3 catalyst. Applied Catalysis B: Environmental, 16(3), 219-226 (1998).
8. Chatterjee, S., H. L. Greene and Y. J. Park, Comparison of modified transition metal-exchanged zeolite catalysts for oxidation of chlorinated hydrocarbons. Journal of catalysis, 138(1), 179-194 (1992).
9. Chintawar, P. S. and H. L. Greene, Decomposition characteristics of chlorinated ethylenes on metal loaded zeolite Y and γ-Al2O3. Applied catalysis B: Environmental, 13(2), 81-92 (1997).
10. Chu, H. and K. Horng, The kinetics of the catalytic incineration of CH3SH and (CH3)2S over a Pt/Al2O3 catalyst. The Science of the Total Environment, 209(2-3), 149-156 (1998).
11. Chu, H. and W. T. Lee, The effect of sulfur poisoning of dimethyl disulfide on the catalytic incineration over Pt/Al2O3 catalyst. The Science of the Total Environment, 209(2-3), 217-224 (1998).
12. Chu, H., W. T. Lee, K. H. Horng and T. K. Tseng, The catalytic incineration of (CH3)2S and its mixture with CH3SH over Pt/Al2O3 catalyst. J. Haz. Material, 82(1), 43-53 (2001).
13. Dhandapani, B. and S. T. Oyama, Gas phase ozone decomposition catalysts. Applied Catalysis B: Environmental, 11(2), 129-166 (1997).
14. Dimitrova, S., G. Ivanov and D. Mehandjiev, Metallurgical slag as a support of catalysts for complete oxidation in the presence of ozone. Applied Catalysis A: General, 266(1), 81-87 (2004).
15. Einaga, H. and S. Futamura, Catalytic oxidation of benzene with ozone over alumina-supported manganese oxides. J. Catalysis, 227(2), 304-312 (2004).
16. Einaga, H. and S. Futamura, Catalytic oxidation of benzene with ozone over Mn ion-exchanged zeolites. Catalysis Communications, 8(3), 557-560 (2007).
17. Feijen-Jeurissen, M. M. R., J. J. Jorna, B. E. Nieuwenhuys, G. Sinquin, C. Petit and J. P. Hindermann, Mechanism of catalytic destruction of 1,2-dichloroethane and trichloroethylene over γ-Al2O3 and γ-Al2O3 supported chromium and palladium catalysts. Catalysis today, 54(1), 65-79 (1999).
18. Fogler, H. S., Elements of Chemical Reaction Engineering, 3rd ed., Prentice Hall PRT, Upper Saddle River, NJ, p. 592 (1999).
19. Forment, G. F. and B. K. Bischoff, Chemical Reaction Analysis and Design, 2nd ed., John Wiley & Sons, New York, pp. 70-82 (1990).
20. Gervasini, A., C. L. Bianchi and V. Ragaini, Low-temperature catalytic combustion of volatile organic compounds using ozone. Environmental Catalysis, 29(3), 353-369 (1994).
21. Gervasini, A., G. C. Vezzoli and V. Ragaini, VOC removal by synergic effect of combustion catalyst and ozone. Catalysis Today, 29(1-4), 449-455 (1996).
22. Gervasini, A. and V. Ragaini, Catalytic technology assisted with ionization/ozonization phase for the abatement of volatile organic compounds. Catalysis Today, 60(1-2), 129-138 (2000).
23. Gonzalez-Velasco, J. R., R. Lopez-Fonseca, A. Aranzabal, J. I. Gutierrez-Ortiz and P. Steltenpohl, Evaluation of H-type zeolites in the destructive oxidation of chlorinated volatile organic compounds. Applied catalysis B: Environmental, 24(3-4), 233-242 (2000).
24. Imamura, S. and I. Masaaki, Decomposition of ozone on a silver catalyst. Ind. Eng. Chem. Res., 30(1), 217-221 (1991).
25. Klinghoffer, A. A. and J. A. Rossin, Catalytic oxidation of chloroacetonitrile over a 1% platinum alumina catalyst. Industrial and engineering chemistry research, 31(2), 481-486 (1992).
26. Koyer-Golkowska, A., A. Musialik-Piotrowska and J. D. Rutkowski, Oxidation of chlorinated hydrocarbons over Pt-Pd-based catalyst Part 1. Chlorinated methanes. Catalysis Today, 90(1-2), 133-138 (2004).
27. Kulazynski, M., J. G. van Ommen, J. Trawczynski and J. Walendziewski, Catalytic combustion of trichloroethylene over TiO2-SiO2 supported catalysts. Appl. Catal. B: Environ., 36(3), 239-247 (2002).
28. Lago, R. M., M. L. H. Green, S. C. Tsang and M. Odlyha, Catalytic decomposition of chlorinated organics in air by copper chloride based catalysts. Applied catalysis B: Environmental, 8(1), 107-121 (1996).
29. Ljubic, I. and A. Sabljic, Theoretical Study of the Mechanism and kinetic of gas-phase ozone additions to ethene, fluoroethene and chloroethene: a multireference approach. J. Phys. Chem. A, 106(18), 4745-4757 (2002).
30. Lopez-Fonseca, R., A. Aranzabal, P. Steltenpohl, J. I. Gutierrez-Ortiz and J. R. Gonzalez-Velasco, Performance of zeolites and product selectivity in the gas-phase oxidation of 1,2-dichloroethane. Catalysis today, 62(4), 367-377 (2000).
31. Lopez-Fonseca, R., J. I. Gutierrez-Ortiz and J. R. Gonzalez-Velasco, Catalytic combustion of chlorinated hydrocarbons over H-BETA and PdO/H-BETA zeolite catalyst. Applied Catalysis A: General, 271(1-2), 39-46 (2004).
32. Lou, J. C. and Y. S. Chang, A detailed simulation of the combustion mechanism of trichloromethane. J. Chin. Inst. Environ. Eng., 4(1), 1-9 (1994).
33. Lou, J. C. and S. S. Lee, Destruction of trichloromethane with catalytic oxidation. Applied Catalysis B: Environmental, 12(2-3), 111-123 (1997).
34. Mehandjiev, D., A. Naydenov and G. Ivanov, Ozone decomposition, benzene and CO oxidation over NiMnO3-ilmenite and NiMn2O4-spinel catalysts. Applied Catalysis A: General, 206(1), 13-18 (2001).
35. Mori, T., D. Tomikawa, Y. Katano, J. Kubo and Y. Morikawa, Reduction of chloroacetone over silica-supported noble metal catalysts, Applied Catalysis A: General, 271(1-2), 77-84 (2004).
36. Naydenov, A. and D. Mehandjiev, Complete oxidation of benzene on manganese dioxide by ozone. Applied Catalysis A: General, 97(1), 17-22 (1993).
37. Ortego Jr, J. D., J. T. Richardson and M. V. Twigg, Catalytic steam reforming of chlorocarbons: methyl chloride. Appl. Catal. B: Environ., 12(4), 339-355 (1997).
38. Oyama, S. T., Chemical and catalytic properties of ozone. Catal. Rev. -Sci. Eng., 42(3), 279-322 (2000).
39. Pieck C. L., C. A. Querini and J. M. Parera, Influence of O2 and O3 regeneration on the metallic phase of the Pt-Re/Al2O3 catalyst. Applied Catalysis A: General, 165(1-2), 207-218 (1997).
40. Pieck, C. L., C. R. Vera, C. A. Querina and J. M. Parera, Differences in coke burning-off from Pt-Sn/Al2O3 catalyst with oxygen or ozone. Applied Catalysis A: General, 278(2), 173-180 (2005).
41. Taylor, S. H., C. S. Heneghan, G. J. Hutchings and I. D. Hudson, The activity and mechanism of uranium oxide catalysts for the oxidative destruction of volative organic compounds. Catal. Today, 59(3-4), 249-259 (2000).
42. Tichenor, A. and M. A. Palazzolo, Destruction of volatile organic compounds via catalytic incineration. Environment Process, 6(3), 172-176 (1987).
43. Toby, S. and F. S. Toby, Kinetic and chemiluminescence in the reaction of methane with Heated ozone. J. Phys. Chem., 93(6), 2453-2456 (1989).
44. Trimm, D. L. and M. Irshad, The influence of electron directing effects on the catalytic oxidation of toluenes and xylenes. J.Catal., 18(2), 142-153 (1970).
45. Ramanathan, K. and J. J. Spivey, Catalytic oxidation of 1,1-dichloroethane. Combustion Science and Technology, 63(4), 247-255 (1989).
46. Reyes, P., A. Figueroa, G. Pecchi and J. L. G. Fierro, Catalytic combustion of methane on Pd-Cu/SiO2 catalysts. Catalysis Today, 62(2-3), 209-217 (2000).
47. Robert, J. F., M. H. Ronald and K. S. Barry, Environment catalyst. Chemistry and Engineering News, 7(1-2), 34-44 (1992).
48. Rossin, J. A. and M. M. Farris, Catalytic oxidation of chloroform over a 2% platinum alumina catalyst. Industrial and engineering chemistry research, 32(6), 1024-1029 (1993).
49. Satterfield, C. N., Heterogeneous Catalysis in Industrial Practice, 2nd ed., McGraw-Hill, New York, NY (1991).
50. Shaw, H., Y. Wang, T.-Ch. Yu and A. E. Cerkanowicz, Catalytic oxidation of trichloroethylene and methylene chloride. In: I. & E. C. symposium on emerging technologies in hazardous waste management, Washington, pp. 358-379 (1992).
51. Sinquin, G., C. Petit, S. Libs, J. P. Hindermann and A. Kiennemann, Catalytic destruction of chlorinated C2 compounds on a LaMnO3 perovskite catalyst. Appl. Catal. B: Environ., 32(1-2), 37-47 (2001).
52. Spivey, J. J., Complete catalytic oxidation of volatile organics. Ind. Eng. Chem. Res., 26(11), 2165-2180 (1987).
53. Wang, Y., H. Shaw and R. J. Farrauto, Catalytic oxidation of trace concentrations of trichloroethylene over 1.5% platinum on g-alumina. Catalytic Contral of Air Pollution. Mobile and Stationary Sources, Washington, pp. 125-140 (1992).
54. 蔡文田,「含揮發性有機物廢氣之活性碳吸附與觸媒焚化處理研究」,國立台灣大學環境工程學研究所博士論文 (1994)。
55. 鄭嵐,「臭氧之觸媒分解」,國立台灣大學環境工程學研究所碩士論文 (1996)。
56. 劉芳巧,「以自製Mn2O3/γ-Al2O3觸媒焚化處理Cl-VOCs之研究」,國立成功大學環境工程學系碩士論文 (2002)。
57. 曾庭科,「以氧化錳觸媒焚化處理含氯揮發性有機化合物之研究」,國立成功大學環境工程學系博士論文 (2002)。
58. 陳冠豪,「以溶膠凝膠法製備MnOx/Al2O3觸媒焚化處理三氯乙烯之研究」,國立成功大學環境工程學系碩士論文 (2003)。
59. 陳家豪,「以觸媒分解氣相中萘之研究」,國立台灣大學環境工程學研究所碩士論文 (2004)。 | zh_TW |