Environmental Engineering Reference
In-Depth Information
[17]
Zhang, M. A., M. A. Dube, D. D. McLean, and M. Kates (2003).
Biodiesel production
from waste cooking oil: 1. Process design and technological assessment,
Biore source
Technol 89:1-16.
[18]
Shimada, Y., Y. Watanabe, A. Sugihara, and Y. Tominaga (2002). Enzymatic
alcoholysis for biodiesel fuel production and application of the reaction to oil
processing, J Molec Catalysis B: Enzymatic 17:133-142.
[19]
Rayner, C. (2004). What are supercritical fluids?, University of Leeds,
http://www.chem.leeds.ac.uk/People/CMR/whatarescf.html.
[20]
Kusdiana, D., and S. Saka (2001).
Kinetics of transesterification in rapeseed oil to
biodiesel fuel as treated in supercritical methanol
, Fuel 80:693-698.
[21]
Kusdiana, D., and S. Saka (2001).
Methyl esterification of free fatty acids of rapeseed
oil as treated in supercritical methanol,
J Chem Eng Jpn 34:383-3 87.
[22]
Saka, S., and D. Kusdiana (2001).
Biodiesel fuel from rapeseed oil as prepared in
supercritical methanol,
Fuel 80:225-231.
[23]
King, M. W. (2003).
Fatty Acid Oxidation
, Indiana University School of Medicine,
http://www.med.unibs.it/~marchesi/fatox.html.
[24]
Jaeger, K.-E., and T. Eggert (2002).
Lipases for biotechnology
, Curr Opin Biotechnol
13 :390-397.
[25]
Takahashi, S., M. Ueda, H. Atomi, H. D. Beer, U. T. Bornscheuer, R. D. Schmid, and
A. Tanaka (1998).
Extracellular production of active Rhizopus oryzae lipase by
Saccharomyces cerevisiae
, J Ferment Bioeng 86:164-168.
[26]
Ueda, M., S. Takahashi, M. Washida, S. Shiraga, and A. Tanaka (2002).
Expression of
Rhizopus oryzae lipase gene in Saccharomyces cerevisiae
, J Molec Catal B: Enz 17:113
- 124.
[27]
Rotticci-Mulder, J. C., M. Gustavsson, M. Holmquist, K. Hult, and M. Martinelle
(2001).
Expression in Pichia pastoris of Candida antarctica lipase B and lipase B fused
to a cellulose-binding domain
, Protein Expression and Purification 21:386-392.
[28]
Powell, K. A., S. W. Ramer, S. B. del Cardayre, W. P. C. Stemmer, M. B. Tobin, P. F.
Longchamp, and G. W. Huisman (2001). Directed evolution and biocatalysis, Angew
Chem Int Ed Engl 40:3948-3959.
[29]
Noureddini, H., X. Gao and R.S. Philkana (2005).
Immobilized Pseudomonas cepacia
lipase for biodiesel fuel production from soybean oil,
Bioresource Technol 96:769-777.
[30]
Samukawa, T., M. Kaieda, T. Matsumoto, K. Ban, A. Kondo, Y. Shimada, H. Noda,
and H. Fukuda (2000).
Pretreatment of immobilized Candida antarctica lipase for
biodiesel fuel production from plant oil
, J Biosci Bioeng 90:180-183.
[31]
Iso, M., B. Chen, M. Eguchi, T. Kudo, and S. Shrestha (2001).
Production of biodiesel
fuel from triglycerides and alcohol using immobilized lipase
, J Molec Catal B: Enzym
16:53-58.
[32]
Liu, Y., H. Hama, Y. Fujita, A. Kondo, Y. Inoue, A. Kimura, and H. Fukuda (1999).
Production of S-lactoyl-glutathione by high activity whole cell biocatalysts prepared by
permeabilization of recombinant Saccharomyces cerevisiae with alcohols
, Biotechnol
Bioeng 64:54-60.
[33]
Kondo, A., Y. Liu, M. Furuta, Y. Fujita, T. Matsumoto, and H. Fukuda (2000).
Preparation of high activity whole cell biocatalyst by permeabilization of recombinant
flocculent yeast with alcohol
, Enzyme Microb Technol 27:806-811.