Biomedical Engineering Reference
In-Depth Information
Siegler, H.D.H., McCaffrey, W.C., Burrell, R.E., and Zvi, A.B. (2012). Optimization of micro-
algal productivity using an adaptive, non-linear model based strategy.
Bioresource
Technology
, 104: 537-546.
Sivakumar, G., Xu, J., Thompson, R.W., Yang, Y., Smith, P.R., and Weathers, P.J. (2012).
Integrated green algal technology for bioremediation and biofuel.
Bioresource
Technology
, 107: 1-9.
Stephenson, P.G., Moore, C.M., Terry, M.J., Zubkov, M.V., and Bibby, T.S. (2011). Improving
photosynthesis for algal biofuels: Toward a green revolution.
Trends in Biotechnology
,
29: 615-623.
Tabernero, A., del Valle, E.M.M., and Galan, M.A. (2012). Evaluating the industrial potential
of biodiesel from a microalgae heterotrophic culture: Scale-up and economics.
Biochemical Engineering Journal
, 63: 104-115.
Tran, D.T., Yeh, K.L., Chen, C.L., and Chang, J.S. (2012). Enzymatic transesterification of
microalgal oil from
Chlorella vulgaris
ESP-31 for biodiesel synthesis using immobilized
Burkholderia
lipase.
Bioresource Technology
, 108: 119-127.
Velasquez-Orta, S.B., Lee, J.G.M., and Harvey, A. (2012). Alkaline in situ transesterification
of
Chlorella vulgaris
.
Fuel,
94: 544-550.
Vijayaraghavan, K., and Hemanathan, K. (2009). Biodiesel production from freshwater algae.
Energy and Fuels
, 23: 5448-5453.
Wu, L.F., Chen, P.C., Huang, A.P., and Lee, C.M. (2012). The feasibility of biodiesel production
by microalgae using industrial wastewater.
Bioresource Technology
, 113: 14-18.
Xiong, W.M., Fu, Y., Zeng, F.X., and Guo, Q.X. (2011). An in situ reduction approach for bio-
oil hydroprocessing.
Fuel Processing Technology,
92: 1599-1605.
Zou, S., Wu, Y., Yang, M., Li, C., and Tong, J. (2009). Thermochemical catalytic liquefaction of
the marine microalgae
Dunaliella tertiolecta
and characterization of bio-oils.
Energy and
Fuels,
23: 3753-3758.
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