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Growth of microalgae using CO2 enriched air for biodiesel production in supercritical CO2

Affiliation:	1. Chemical and Petroleum Engineering Department, UAE University, Al-Ain, United Arab Emirates;2. Mechanical Engineering Department, UAE University, Al-Ain, United Arab Emirates;3. Chemical and Materials Engineering Department, University of Auckland, New Zealand;1. Electrical Engineering Department, United Arab Emirates University, P.O. Box: 15551, Al Ain, United Arab Emirates;2. Electrical Engineering Department, Lebanon International University, Beirut, Lebanon;3. Mechanical Engineering Department, United Arab Emirates University, P.O. Box: 15551, Al Ain, United Arab Emirates;1. Sustainable and Renewable Energy Engineering, University of Sharjah, PO Box 27272, Sharjah, United Arab Emirates;2. Department of Applied Physics, University of Sharjah, PO Box 27272, Sharjah, United Arab Emirates

Abstract:	The optimum conditions for lipids productivity and CO₂ fixation of two freshwater strains, namely Chlorella sp. and Pseudochlorococcum sp. and a marine strain; namely Nannochlorpsis sp. have been determined in this work. The species were grown autotrophically under aeration with different CO₂ concentrations, ranging from 0.04 to 2% (v/v). The growth was tested in nitrogen sufficient and deficient media at different salinities (0.49–680 mM) and temperatures of 27 and 31 °C. The optimum CO₂ enrichment was found to be 1% (v/v) in both media. Nitrogen starvation resulted in an increase in lipid contents, but at lower growth rate, which resulted in a lower overall lipid productivity. The experimental data were used to determine the kinetic parameters of Haldane model. The Chlorella sp. grew well at salinity levels of up to 460 mM. The highest CO₂ biofixation rate was observed when Chlorella sp. was grown at 27 °C in seawater (230 mM NaCl).Lipids were extracted from harvested marine strain, Nannochlorpsis sp., and enzymatically transesterified to produce biodiesel in supercritical CO₂ (SC–CO₂) medium. It was found that the conversion of biodiesel produced from microalgae lipids was 35% higher than that achieved using lamb fat in a similar system.

Keywords:	Microalgae Lipid productivity Kinetic Biodiesel ATP"} {"#name":"keyword" "$":{"id":"kwrd0040"} "$$":[{"#name":"text" "_":"adenosine triphosphate BBM"} {"#name":"keyword" "$":{"id":"kwrd0050"} "$$":[{"#name":"text" "_":"bold bassel medium F/2"} {"#name":"keyword" "$":{"id":"kwrd0060"} "$$":[{"#name":"text" "_":"Guillard medium FAMEs"} {"#name":"keyword" "$":{"id":"kwrd0070"} "$$":[{"#name":"text" "_":"fatty acids methyl esters FID"} {"#name":"keyword" "$":{"id":"kwrd0080"} "$$":[{"#name":"text" "_":"flame ionization detector GC"} {"#name":"keyword" "$":{"id":"kwrd0090"} "$$":[{"#name":"text" "_":"gas chromatography GRG"} {"#name":"keyword" "$":{"id":"kwrd0100"} "$$":[{"#name":"text" "_":"generalized reduced gradient H"} {"#name":"keyword" "$":{"id":"kwrd0110"} "$$":[{"#name":"text" "_":"Henry constant NADPH"} {"#name":"keyword" "$":{"id":"kwrd0120"} "$$":[{"#name":"text" "_":"nicotinamide adenine dinucleotide phosphate NREL"} {"#name":"keyword" "$":{"id":"kwrd0130"} "$$":[{"#name":"text" "_":"national renewable energy laboratory O F"} {"#name":"keyword" "$":{"id":"kwrd0140"} "$$":[{"#name":"text" "_":"objective function PLU"} {"#name":"keyword" "$":{"id":"kwrd0150"} "$$":[{"#name":"text" "_":"propyl laurate units supercritical carbon dioxide TIC"} {"#name":"keyword" "$":{"id":"kwrd0170"} "$$":[{"#name":"text" "_":"total inorganic carbon
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