Biomedical Engineering Reference
In-Depth Information
Chowdhury, R., Viamajala, S., and Gerlach, R. (2012). Reduction of environmental and energy
footprint of microalgal biodiesel production through material and energy integration.
Bioresource Technology
, 108: 102-111. http://www.biofuels-platform.ch/en/infos/
production.php?id=biodiesel.
Hu, Z., Ma, X., and Chen, C. (2012). A study on experimental characteristics of microwave-
assisted pyrolysis of microalgae.
Bioresource Technology
, 107: 487-493.
Johnson, M.B., and Wen, Z. (2009). Production of biodiesel fuel from the microalga
Schizochytrium limacinum
by direct transesterification of algal biomass.
Energy and
Fuels
, 23: 5179-5183.
Kang, B., Honda, K., Okano, K., Aki, T., Omasa, T., and Ohtake, H. (2011). Thermal
analysis for differentiating between oleaginous and non-oleaginous microorganisms.
Biochemical Engineering Journal
, 57: 23-29.
Kao, C.Y., Chiu, S.Y., Huang, T.T., Dai, L., Wang, G.H., Tseng, C.P., Chen, C.H., and Lin C.S.
(2012). A mutant strain of microalga
Chlorella
sp. for the carbon dioxide capture from
biogas.
Biomass and Bioenergy
, 36: 132-140.
Kim, E.J., Park, S., Hong, H.J., Choi, Y.E., and Yang, J.W. (2011). Biosorption of chromium
(Cr(III)/Cr(VI)) on the residual microalga
Nannochloris oculata
after lipid extraction
for biodiesel production.
Bioresource Technology,
102: 11155-11160.
Lam, M.K., and Lee, K.T. (2012). Microalgae biofuels: A critical review of issues, problems
and the way forward.
Biotechnology Advances
, 30: 673-690.
Lardon, L., Helias, A., Sialve, B., Steyer, J.P., and Bernard, O. (2009). Life-cycle assessment
of biodiesel production from microalgae.
Environmental Science and Technology
,
44: 6475-6481.
Li, D., Chen, L., Xu, D., Zhang, X., Ye, N., Chen, F., and Chen, S. (2012). Preparation and
characteristics of bio-oil from the marine brown alga
Sargassum patens
C. Agardh.
Bioresource Technology
, 104: 737-742.
Li, Y., Zhou, W., Hu, B., Min, M., Chen, P., and Ruan R.R. (2011). Integration of algae
cultivation as biodiesel production feedstock with municipal wastewater treatment:
Strains screening and significance evaluation of environmental factors.
Bioresource
Technology
, 102: 10861-10867.
Liu, X., Clarens, A.F., and Colosi, L.M. (2012). Algae biodiesel has potential despite
inconclusive results to date.
Bioresource Technology
, 104: 803-806.
Lohrey, C., and Kochergin, V. (2012) Biodiesel production from microalgae: Co-location with
sugar mills.
Bioresource Technology
, 108: 76-82.
Maddi, B., Viamajala, S., and Varanasi, S. (2011). Comparative study of pyrolysis of algal bio-
mass from natural lake blooms with lignocellulosic biomass.
Bioresource Technology
,
102: 11018-11026.
Pie, X., Yuan, X., Zeng, G., Huang, H., Wang, J., Li, H., and Zhu, H. (2012). Co-liquefaction
of microalgae and synthetic polymer mixture in sub- and supercritical ethanol.
Fuel
Processing Technology
, 93: 35-44.
Rosch, C., Skarka, J., and Wegerer, N. (2012) Materials flow modeling of nutrient recycling in
biodiesel production from microalgae.
Bioresource Technology
, 107: 191-199.
Santacesaria, E., Vicente, G.M., Serio, M.D., and Tesser, R. (2012). Main technologies in
biodiesel production: State of the art and future challenges.
Catalysis Today
, 195(1): 2-13.
Sarin, R., Kumar, R., Srivastav, B., Puri, S.K., Tuli, D.K., Malhotra, R.K., and Kumar, A.
(2009). Biodiesel surrogates: Achieving performance demands.
Bioresource Technology
,
100: 3022-3028.
Sharma, Y.C., and Singh, B. (2009). Development of biodiesel: current scenario.
Renewable
and Sustainable Energy Reviews
, 13: 1646-1651.
Sharma, Y.C., Singh, B., and Korstad, J. (2011). A critical review on recent methods used for
economically viable and eco-friendly development of microalgae as a potential feed-
stock for synthesis of biodiesel.
Green Chemistry
, 13: 2993-3006.
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