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208 Advances in Eco-Fuels for a Sustainable Environment

[70] Zimmerman WB, Tesa r V, Bandulasena HCH. Towards energy efficient nanobubble
generation with fluidic oscillation. Curr Opin Colloid Interface Sci 2011;16:350–6.
[71] Cheng Y-L, Juang Y-C, Liao G-Y, Ho S-H, Yeh K-L, Chen C-Y, et al. Dispersed ozone
flotation of Chlorella vulgaris. Bioresour Technol 2010;101:9092–6.
[72] Cheng Y-L, Juang Y-C, Liao G-Y, Tsai P-W, Ho S-H, Yeh K-L, et al. Harvesting of
Scenedesmus obliquus FSP-3 using dispersed ozone flotation. Bioresour Technol
2011;102:82–7.
[72a] Toh PY, Yeap SP, Kong LP, Ng BW, Chieh Chan DJ, Ahmad AL, Lim JK.
Magnetophoretic removal of microalgae from fishpond water: feasibility of high gradi-
ent and low gradient magnetic separation. Chem Eng J 2012;211–212:22–30.
[73] Greenwell HC, Laurens LML, Shields RJ, Lovitt RW, Flynn KJ. Placing microalgae on
the biofuels priority list: a review of the technological challenges. J R Soc Interface
2010;7:703–26.
[74] Devan PK, Mahalakshmi NV. Performance, emission and combustion characteristics of
poon oil and its diesel blends in a DI diesel engine. Fuel 2009;88(5):861–7.
[75] Foidl N, Foidl G, Sanchez M, Mittelbach M, Hackel S. Jatropha curcas as a source for
the production of biofue in Nicaragua. Bioresour Technol 1996;58(1):77–82.
[76] Sudrajat HR. Memproduksi biodiesel jarak pagar (Producing biodiesel from Jatropha).
Depok, Jakarta: Penebar swadaya; 2006.
[77] Mahanta P, Shrivastava A. Technology development of bio-diesel as an energy alterna-
tive, in challenges and strategies for sustainable energy deficiency and environment. New
Delhi: New Age International (P) Ltd.; 2011.
ˇ
[78] Sos ˇtaric ˇ M, Klinar D, Bricelj M, Golob J, Berovic ˇ M, Likozar B. Growth, lipid extraction
and thermal degradation of the microalgae Chlorella vulgaris. New Biotechnol
2012;29:325–31.
[79] Balasubramanian S, Allen JD, Kanitkar A, Boldor D. Oil extraction from Scenedesmus
obliquus using a continuous microwave system–design, optimization, and quality char-
acterization. Bioresour Technol 2011;102:3396–403.
[80] Adam F, Abert-Vian M, Peltier G, et al. Solvent-free ultrasound-assisted extraction of
lipids from freshmicroalgae cells: a green, clean and scalable process. Bioresour Technol
2012;114:457–65.
[81] Metherel AH, Taha AY, Izadi H, Stark KD. The application of ultrasound energy to
increase lipid extraction throughput of solid matrix samples (flaxseed). Prostaglandins
Leukot Essent Fat Acids 2009;81:417–23.
[82] Ranjith Kumar R, Hanumantha Rao P, Arumugam M. Lipid extraction methods from
microalgae: a comprehensive review. Front Energy Res 2015;2:61.
[83] Mahanta P, Shrivastava A. Technology development of bio-diesel as an energy alter-
native. Available from: http://www.newagepublishers.com/samplechapter/001305.
pdf; 2004. Accessed 24 October 2013.
[84] Kansedo J, Lee KT, Bhatia S. Cerbera odollam (sea mango)oil as a promising nonedible
feedstock for biodiesel production. Fuel 2009;88(6):1148–50.
[85] MoserBR, Vaughn SF.Coriander seed oilmethylesters asbiodiesel fuel:uniquefatty acid
composition and excellent oxidative stability. Biomass Bioenergy 2010;34(4):550–8.
[86] Rashid U, Anwar F, Moser BR, Knothe G. Moringa oleifera oil: a possible source of
biodiesel. Bioresour Technol 2008;99(17):8175–9.
[87] Sarin R, Sharma M, Khan AA. Studies on Guizotia abyssinica L. oil: biodiesel synthesis
and process optimization. Bioresour Technol 2009;100(18):4187–92.
[88] Levine RB, Pinnarat T, Savage PE. Biodiesel production from wet algal biomass through
in situ lipid hydrolysis and supercritical transesterification. Energy Fuel 2010;24:5235–43.

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