Complete removal of toluene from air: A response surface methodology

Australian Journal of Basic and Applied Sciences

Volumn 5, Issue 6, 2011, Pages 286-288

  Berenjian, Aydin ^a   Fathi, Ali ^b   Feghenabi, Saman ^a   Khodiev, Anvar ^a  

^a SAHAND UNIVERSITY OF TECHNOLOGY   (Iran)

^b UNIVERSITY OF SYDNEY   (Australia)

Author keywords

Central composite face design; Ozone; Platina; Toluene

Indexed keywords

EID: 83355168284     PISSN: 19918178     EISSN: None     Source Type: Journal    
DOI: None     Document Type: Article

References (5)

1. Berenjian, A and A. Khodiev, 2009. How ozone can affect volatile organic compounds. Aust. J. Basic. & Appl. Sci., 3(2): 385-388.
2. Changm M.B. and C.C. Chang, 1996. Destruction and Removal of Toluene and MEK from Gas Streams with Silent Discharge Plasmas. AlChE Journal, 41(8): 37-43.
3. Conti, G., W.B. Leroux. and R. Brexezinski, 1999. A High Performance Biofilter for VOC Emission Control, Journal of the Air & Waste Management Association, 49(10): 185-192.
4. Saracco, G. and V. Specchia, 2000. Catalytic Filters for Abatement of 8, latile Organic Compounds. Journal of Chemical Engineering Science, 55(5): 897-908.
5. Wu, G. B, A. Conti, A. Leroux, R. Brzezinski, G. Viel, M. Heitz, 1999. A high performance biofilter for VOC emission control, Journal of the Air and Waste Management Association, 49(2): 185-192.