Biomedical Engineering Reference
In-Depth Information
Benemann, J.R. (2008). NREL-AFOSR Workshop, Algal Oil for Jet Fuel Production; Arlington,
VA, 19 February 2008.
Benemann, J.R. (1993). Utilization of carbon dioxide from fossil fuel-burning plants with
biological systems. Energy Conversion and Management, 34: 999-1004.
Ben-Amoz, A. (2009). Bioactive compounds: Glycerol production, carotenoid production,
fatty acids production. In The Alga Dunaliella Biodiversity, Physiology, Genomics
and Biotechnology (Eds. Ben-Amotz, A., Polle, J.E.W., and Subba Rao, D.V.). Science
Publishers, Enfield, NH, pp. 189-207.
Brown, M.R. (1991). The amino acid and sugar composition of 16 species of microalgae used
in mariculture. Journal of Experimental Marine Biology and Ecology, 145: 79-99.
Brown, P. (2009). Algal Biofuels Research, Development, and Commercialization Priorities:
A Commercial Economics Perspective. Energy Overviews. [Online] ep Overviews
Publishing, Inc, 22. 06. 2009. http://www.epoverviews.com/oca/Algae%20Biofuel%20
Development%20Prioritie.
Cardon, Z.G., Gray, D.W., and Lewis, L.A. (2008). The green algal underground: Evolutionary
secrets of desert cells. Bioscience, 58: 114-122.
Casal, C.C., Cauresma, M.M., Vega, M.J.M., and Vilches, C.C. (2011). Enhanced productivity
of a lutein-enriched novel acidophile microalga grown on urea. Marine Drugs, 9:
29-42.
Cauresma, M., Casal, C., Forjanb, E., and Vilches, C.C. (2011). Productivity and selective
accumulation of carotenoids of the novel extremophile microalga Chlamydomonas
acidophila grown with different carbon sources in batch systems. Journal of Industrial
Microbiology and Biotechnology , 38: 167-177.
Chang, E.H., and Yang, S.S. (2003). Some characteristics of microalgae isolated in Taiwan for
biofixation of carbon dioxide . Botanical Bulletin of Academia Sinica, 44: 43-52.
Chen, C.Y., Yeh, K.L., Aisyah, R., Lee, D.J., and Chang, J.S. (2011). Cultivation, photobio-
reactor design and harvesting of microalgae for biodiesel production: A critical review.
Bioresource Technology, 10: 71-81.
Chi, Z.Y., Pyle, D., Wen, Z.Y., Frear, C., and Chen, S.L. (2007). A laboratory study of
producing docosahexaenoic acid from biodiesel-waste glycerol by microalgal fermenta-
tion . Process Biochemistry , 42: 1537-1545.
Chisti, Y. (2007). Biodiesel from microalgae. Biotechnology Advances, 25: 294-306.
Chiu, S., Kao, C.C., Tsai, M., Ong, S., Chen, C., and Lin, C. (2009). Lipid accumulation and
CO 2   utilization of Nannochloropsis oculata in response to CO 2   aeration. Bioresource
Technology, 100: 833-838.
Coesel, S.N., Baumgartner, A.C., Teles, U.M., Ramo, A.A., and Henriques, N.M. (2008).
Nutrient limitation is the main regulatory factor for carotenoid accumulation and for
Psy and Pds steady state transcript levels in Dunaliella salina (Chlorophyta) exposed to
high light and salt stress. Marine Biotechnology, 10: 602-611.
Converti, A., Casazza, A., Ortiz, E., Perego, P., and Borghi, M. (2009). Effect of temperature
and nitrogen concentration on the growth and lipid content of Nannochloropsis oculata
and Chlorella vulgaris for biodiesel production. Chemical Engineering and Processing,
48: 1146-1151.
Coronet, J.F. (2010). Calculation of optimal design and ideal productivities of volumetrically
lightened photo bioreactors using the constructal approach . Chemical Engineering
Science, 65: 985-998.
Courchesne, N.M.D., Parisien, A., Wang, B., and Lan, C.Q. (2009). Enhancement of lipid
production using biochemical, genetic and transcription factor engineering approaches .
Journal of Biotechnology, 141: 31-41.
Craggs, R.J., Sukias, J.P., Tanner, C.T., and Davies-Colley, R.J. (2004). Advanced pond system
for diary-farm effluent treatment. New Zealand Journal of Agricultural Research,
47: 449-460.
Search WWH ::




Custom Search