Catalytic nonthermal plasma reactor for the abatement of low concentrations of isopropanol

Chemical Engineering Journal

Volumn 165, Issue 1, 2010, Pages 194-199

  Karuppiah, J ^a   Sivachandiran, L ^b   Karvembu, R ^a   Subrahmanyam, Ch ^b  

^a NATIONAL INSTITUTE OF TECHNOLOGY   (India)

^b INDIAN INSTITUTE OF TECHNOLOGY HYDERABAD   (India)

Author keywords

Dielectric barrier discharge; Isopropanol; Ozone; Sintered metal fibres; Specific input energy

Indexed keywords

ATOMIC OXYGEN; CO-OXIDES; DIELECTRIC BARRIER DISCHARGE REACTORS; DIELECTRIC BARRIER DISCHARGES; HIGH VOLTAGE; IN-SITU; INNER-ELECTRODES; ISO-PROPANOLS; LOW CONCENTRATIONS; NONTHERMAL PLASMA REACTORS; OXIDATIVE DECOMPOSITION; SINTERED METAL FIBERS; SINTERED METALS; SPECIFIC INPUT ENERGIES; TOTAL OXIDATION;

CALCINATION; COBALT COMPOUNDS; ELECTRIC DISCHARGES; ELECTRIC REACTORS; FIBERS; FLOW CONTROL; MANGANESE; MANGANESE OXIDE; MELT SPINNING; OXIDATION; OZONE; PLASMA APPLICATIONS; SINTERING; VOLATILE ORGANIC COMPOUNDS;

DIELECTRIC DEVICES;

EID: 78149499445     PISSN: 13858947     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.cej.2010.09.017     Document Type: Article

References (30)

1. NIOSH Pocket guide to chemical Hazards, 151 2005. http://www.cdc.gov/niosh/npg/npgd0359.html.
2. Pollution Prevention and Abatement Handbook 1998, World Bank Group, 302.
3. AWMA, Air and Waste Management Association Air Pollution Engineering Manual 1992, Van Nostrand Reinhold, New York.
4. J.J. Coogan, Technologie Transfer # 97023244A-ENG, LANL, Feb. 1997.
5. John Zink Company Innovations of Catalytic Combustion, International Symposium on Environmental Control of Combustion Processes 1991.
6. Futamura S., Einaga H., Kabashima H., Hwan L.Y. Synergistic effect of silent discharge plasma and catalysts on benzene decomposition. Catalysis Today 2004, 89:89.
7. Roland U., Holzer F., Kopinke F.D. Improved oxidation of air pollutants in a non-thermal plasma. Catalysis Today 2002, 73:315.
8. Kim H.H., Oh S.M., Ogata A., Futamura S., Futamura S., Zhang A., Prieto G., Yamamoto T. Factors and Intermediates governing byproduct distribution for decomposition of butane in non thermal plasma. Transactions on Industry Applications 1998, 34:967.
9. 2 catalysts. Applied Catalysis B: Environmental 2005, 56:213.
10. Ayrault C., Barrault J., Blin-Simiand N., Jorand F., Pasquiers S., Rousseau A., Tatibouet J.M. Oxidation of 2-heptanone in air by a DBD-type plasma generated within a honeycomb monolith supported Pt-based catalyst. Catalysis Today 2004, 89:75.
11. Eliasson B., Kogelschatz U. Non equilibrium volume plasma chemical processing. IEEE Transactions on Industry Applications 1991, 19:1063.
12. Yhang K., Eliasson B., Kogelschatz U. Direct conversion of greenhouse gases to synthesis gas and C4 hydrocarbons over Zeolite HY promoted by a dielectric barrier discharge. Industrial & Engineering Chemistry Research 2002, 41:1462.
13. Kogelschatz U. Dielectric-barrier discharges: their history, discharge physics, and industrial applications. Plasma Chemistry and Plasma Processing 2003, 23(1).
14. Holzer F., Roland U., Kopinke U. Combination of non-thermal plasma and heterogeneous catalysis for oxidation of volatile organic compounds. Part 1. Accessibility of the intra-particle volume. Applied Catalysis B: Environmental 2002, 38:163.
15. 3. Applied Catalysis B: Environmental 2005, 58:217.
16. Roland U., Holzer F., Kopinke F.D. Combination of non-thermal plasma and heterogeneous catalysis for oxidation of volatile organic compounds. Part 3. Electron paramagnetic resonance (EPR) studies of plasma-treated porous alumina. Applied Catalysis B: Environmental 2005, 58:227.
17. Gallardo-Amores J.M., Armaroli T., Ramis G., Finocchio E., Busca G. A study of anatase-supported Mn oxide as catalysts for 2-propanol oxidation. Applied Catalysis B: Environmental 1999, 22:249.
18. 4 in flue gases using silent discharge plasmas (SDPs) enhanced by (V) UV at 172nm and 253.7nm. Journal of Advanced Oxidation Technologies 1997, 2:223.
19. Oda T., Yamashita R., Takahashi T., Masuda S. Decomposition of gaseous organic contaminates by surface discharge induced plasma chemical processing-SPCP. IEEE Transactions on Industry Applications 1996, 32:118.
20. Tevault D.E. Carbon monoxide production in silent discharge plasmas of air and air-methane mixtures. Plasma Chemistry and Plasma Processing 1987, 7:231.
21. Penetratnte B., Hsiao M.C., Bardsley J.N., Merrit B.T., Vogtlin G.E., Kuthi A., Burkhart C.P., Bayless J.R. Identification of mechanisms for decomposition of air pollutants by non-thermal plasma processing. Plasma Chemistry and Plasma Processing 1997, 6:251.
22. Yamamoto T., Mizuno I.K., Tamori I., Ogata A., Nifuku M., Michalska M., Prieto G. Catalysis-assisted plasma technology for carbon tetrachloride destruction. IEEE Transactions on Industry Applications 1996, 32:100.
23. Futamura S., Zhang A., Yamamoto T. The dependence of nonthermal plasma behavior of VOCs on their chemical structures. Journal of Electrostatics 1997, 42:51.
24. Demidiouk V., Moon S.I., Chae J.O. Toluene and butyl acetate removal from air by plasma-catalytic system. Catalysis Communications 2003, 4:51.
25. Ogata A., Mizuno K., Kushiyama S., Yamamoto T. Oxidation of dilute benzene in an alumina hybrid plasma reactor at atmospheric pressure. Plasma Chemistry and Plasma Processing 1999, 19:383.
26. Subrahmanyam Ch., Magureanu M., Kiwi-Minsker L., Renken A. Catalytic abatement of volatile organic compounds assisted by non-thermal plasma. Part 1. A novel dielectric barrier discharge reactor containing catalytic electrode. Applied Catalysis B: Environmental 2006, 65:150.
27. Subrahmanyam Ch., Kiwi-Minsker L., Renken A. Plasma novel catalytic dielectric barrier discharge reactor for gas-phase abatement of isopropanol. Plasma Chemistry And Plasma Processing 2007, 27:13.
28. Dhandapani B., Oyama S.T. Gas phase ozone decomposition catalysts. Applied Catalysis B: Environnemental 1997, 11:129.
29. Li W., Gibbs G.V., Oyama S.T. Mechanism of ozone decomposition on a manganese oxide catalyst. 1. In situ Raman spectroscopy and ab initio molecular orbital calculations. Journal 1998, 120:9041.
30. Hsin Liang Chen, How Ming Lee, Shiaw Huei Chen, Moo Been Chang, Sheng Jen Yu, Shou Nan Li Removal of volatile organic compounds by single-stage and two-stage plasma catalysis systems: a review of the performance enhancement mechanisms, current status, and suitable applications. Environmental Science & Technology 2009, 43:2216-2227.