Photocatalytic treatment of indoor air: Optimization of 2-propanol removal using a response surface methodology (RSM)

Applied Catalysis B: Environmental

Volumn 94, Issue 3-4, 2010, Pages 303-310

  Vildozo, Daniel ^a   Ferronato, Corinne ^a   Sleiman, Mohamad ^a   Chovelon, Jean Marc ^a  

^a UNIVERSITÉ LYON 1   (France)

Author keywords

2 Propanol; Indoor air; Photocatalysis; RSM; TiO2

Indexed keywords

2-PROPANOL; ANNULAR FLOWS; DIFFERENT PROCESS; EXPERIMENTAL DATA; EXPERIMENTAL DESIGN; GAS CHROMATOGRAPHS; GAS CHROMATOGRAPHY-MASS SPECTROMETRY; HIGH RATE; INDOOR AIR; INDOOR AIR CONCENTRATION; INLET CONCENTRATION; ISOPROPYL ALCOHOLS; MODELIZATION; ON-LINE MEASUREMENT; PHOTO-CATALYTIC REMOVAL; PHOTOCATALYTIC OXIDATIONS; PHOTOCATALYTIC TREATMENT; PHOTOIONIZATION DETECTORS; PULSED DISCHARGE; REACTION INTERMEDIATE; RELATIVE HUMIDITIES; RESPONSE SURFACE METHODOLOGY; STRONG INTERACTION; TIO;

ACETONE; ATMOSPHERIC HUMIDITY; CHROMATOGRAPHIC ANALYSIS; GAS CHROMATOGRAPHY; HELIUM; INLET FLOW; MASS SPECTROMETRY; MINERALOGY; OPTIMIZATION; PHOTOCATALYSIS; REACTION INTERMEDIATES; SURFACE CHEMISTRY; SURFACE PROPERTIES; THERMAL DESORPTION; TITANIUM; TITANIUM DIOXIDE; VOLATILE ORGANIC COMPOUNDS;

PROPANOL;

EID: 74049164169     PISSN: 09263373     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.apcatb.2009.11.020     Document Type: Article

References (44)

1. Mo J., Zhang Y., Xu Q., Lamson J.J., and Zhao R. Atmospheric Environment 43 (2009) 2229-2246
2. Chen J., and Poon C.-s. Building and Environment 44 (2009) 1899-1906
3. Hodgson A.T., Destaillats H., Sullivan D.P., and Fisk W.J. Indoor Air 17 (2007) 305-316
4. Herrmann J.-M. Catalysis Today 53 (1999) 115-129
5. Zhao J., and Yang X. Building and Environment 38 (2003) 645-654
6. Alberci R.M., and Jardim W.F. Applied Catalysis B: Environmental 14 (1997) 55-68
7. Wang S., Ang H.M., and Tade M.O. Environment International 33 (2007) 694-705
8. Montgomery D.C. Design and Analysis of Experiments. 5th ed. (2001), John Wiley and Sons, New York
9. Myers R.H., and Montgomery D.C. Response Surface Methodology. 5th ed. (2002), Wiley, New York
10. Caliman A.F., Cojocaru C., Antoniadis A., and Poulios I. Journal of Hazardous Materials 144 (2007) 265-273
11. Cho I.-H., and Zoh K.-D. Dyes and Pigments 75 (2007) 533-543
12. Lin Y., Ferronato C., Deng N., Wu F., and Chovelon J.-M. Applied Catalysis B: Environmental 88 (2009) 32-41
13. Liu H.-L., and Chiou Y.-R. Chemical Engineering Journal 112 (2005) 173-179
14. Secula M.S., Suditu G.D., Poulios I., Cojocaru C., and Cretescu I. Chemical Engineering Journal 141 (2008) 18-26
15. Sleiman M., Vildozo D., Ferronato C., and Chovelon J.-M. Applied Catalysis B: Environmental 77 (2007) 1-11
16. Mo J., Zhang Y., Xu Q., Zhu Y., Lamson J.J., and Zhao R. Applied Catalysis B: Environmental 89 (2009) 570-576
17. Tanaka-kagawa T., Uchiyama S., Matsushima E., Sasaki A., Kobayashi H., Yagi M., Tsuno M., Arao M., Ikemoto K., Yamasaki M., Otsubo Y., Ando M., Hideto J., and Tokunaga H. Survey of Volatile Organic Compounds Found in Indoor and Outdoor Air Samples from Japan (2005), National Institute of Health Sciences, Japan pp. 27-31
18. Wolkoff P., and Nielsen G.D. Atmospheric Environment 35 (2001) 4407-4417
19. Ohko Y., Fujishima A., and Hashimoto K. The Journal of Physical Chemistry B 102 (1998) 1724-1729
20. Forsyth D.S. Journal of Chromatography A 1050 (2004) 63-68
21. Wentworth W.E., Sun K., Zhang D., Madabushi J., and Stearns S.D. Journal of Chromatography A 872 (2000) 119-140
22. Luigi Campanella M.B., and Cecilia Costanza. Annali di Chimica 95 (2005) 727-740
23. Bezerra M.A., Santelli R.E., Oliveira E.P., Villar L.S., and Escaleira L.A. Talanta 76 (2008) 965-977
24. Sleiman M., Conchon P., Ferronato C., and Chovelon J.-M. Applied Catalysis B: Environmental 86 (2009) 159-165
25. Sleiman M., Ferronato C., and Chovelon J.-M. Environmental Science & Technology 42 (2008) 3018-3024
26. Xu W., Raftery D., and Franciso J.S. The Journal of Physical Chemistry B 107 (2003) 4537-4544
27. Chiu-Ping C., Jong-Nan C., and Ming-Chun L. Journal of Chemical Technology & Biotechnology 79 (2004) 1293-1300
28. Yu H., Zhang K., and Rossi C. Journal of Photochemistry and Photobiology A: Chemistry 188 (2007) 65-73
29. Bouazza N., Lillo-Ródenas M.A., and Linares-Solano A. Applied Catalysis B: Environmental 84 (2008) 691-698
30. Bouzaza A., Vallet C., and Laplanche A. Journal of Photochemistry and Photobiology A: Chemistry 177 (2006) 212-217
31. Luo Y., and Ollis D.F. Journal of Catalysis 163 (1996) 1-11
32. Ao C.H., and Lee S.C. Journal of Photochemistry and Photobiology A: Chemistry 161 (2004) 131-140
33. Kim S.B., Hwang H.T., and Hong S.C. Chemosphere 48 (2002) 437-444
34. Obee T.N. Environmental Science & Technology 30 (1996) 3578-3584
35. Nam W., Kim J., and Han G. Chemosphere 47 (2002) 1019-1024
36. Marcì G., García-López E., and Palmisano L. Catalysis Today 144 (2009) 42-47
37. Obee T.N., and Brown R.T. Environmental Science & Technology 29 (1995) 1223-1231
38. Ohko Y., Hashimoto K., and Fujishima A. The Journal of Physical Chemistry A 101 (1997) 8057-8062
39. Addamo M., Augugliaro V., Di Paola A., García-López E., Loddo V., Marcì G., and Palmisano L. Thin Solid Films 516 (2008) 3802-3807
40. Xu W., and Raftery D. The Journal of Physical Chemistry B 105 (2001) 4343-4349
41. Larson S.A., Widegren J.A., and Falconer J.L. Journal of Catalysis 157 (1995) 611-625
42. Arsac F., Bianchi D., Chovelon J.M., Ferronato C., and Herrmann J.M. The Journal of Physical Chemistry A 110 (2006) 4202-4212
43. Hernández-Alonso M.D., Tejedor-Tejedor I., Coronado J.M., Anderson M.A., and Soria J. Catalysis Today 143 (2009) 364-373
44. Zhang H., Yu H., Zheng A., Li S., Shen W., and Deng F. Environmental Science & Technology 42 (2008) 5316-5321