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Optimization Studies for Algae Biofuels Production


Affiliations
1 Department of Molecular and Cellular Engineering, Sam Higginbottom Institute of Agriculture, Technology and Sciences, Allahabad (U.P.), India
2 The Energy and Resources Institute, New Delhi, India
     

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Continuous use of fossil fuel is globally considered as unsustainable because of depleting supplies and these fuels also account for accumulation of green house gases in the environment. Renewable, carbon neutral, transport fuels are necessary for environmental and economic sustainability. Microalgae feedstocks are gaining interest in the present day energy scenario due to their fast growth potential coupled with relatively high lipid, carbohydrate and nutrients contents. All of these properties render them an excellent source for biofuels such as biodiesel, bioethanol and biomethane; as well as a number of other valuable pharmaceutical and nutraceutical products. It’s a carbon neutral fuel. But high production cost is still a big hurdle in its commercialisation. Various optimisations are discussed in this research for the commercialization of algal biofuels. The production cost of algal biofuel is still quite high, so a lot of optimisation studies for growth parameters, lipid productivity and lipid extraction process are needed, which are discussed in this study. Commercialization of microalgae for biodiesel is technically feasible. Studies had shown that algae biofuel has the potential to completely displace liquid fuels derived from petroleum. Economics of producing microalgal biodiesel need to improve substantially to make it competitive with petrodiesel, but the level of improvement necessary appears to be attainable.


Keywords

Microalgae, Biofuels, Nutraceutical, Biomass, D. tertiolecta, D. salina.
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  • Optimization Studies for Algae Biofuels Production

Abstract Views: 268  |  PDF Views: 2

Authors

Prateek Singh
Department of Molecular and Cellular Engineering, Sam Higginbottom Institute of Agriculture, Technology and Sciences, Allahabad (U.P.), India
Dheeban Chakravarthi Kannan
The Energy and Resources Institute, New Delhi, India
Vineeta Gurnani
Department of Molecular and Cellular Engineering, Sam Higginbottom Institute of Agriculture, Technology and Sciences, Allahabad (U.P.), India
Aradhana Irene Charan
Department of Molecular and Cellular Engineering, Sam Higginbottom Institute of Agriculture, Technology and Sciences, Allahabad (U.P.), India
Amit Alexander Charan
Department of Molecular and Cellular Engineering, Sam Higginbottom Institute of Agriculture, Technology and Sciences, Allahabad (U.P.), India

Abstract


Continuous use of fossil fuel is globally considered as unsustainable because of depleting supplies and these fuels also account for accumulation of green house gases in the environment. Renewable, carbon neutral, transport fuels are necessary for environmental and economic sustainability. Microalgae feedstocks are gaining interest in the present day energy scenario due to their fast growth potential coupled with relatively high lipid, carbohydrate and nutrients contents. All of these properties render them an excellent source for biofuels such as biodiesel, bioethanol and biomethane; as well as a number of other valuable pharmaceutical and nutraceutical products. It’s a carbon neutral fuel. But high production cost is still a big hurdle in its commercialisation. Various optimisations are discussed in this research for the commercialization of algal biofuels. The production cost of algal biofuel is still quite high, so a lot of optimisation studies for growth parameters, lipid productivity and lipid extraction process are needed, which are discussed in this study. Commercialization of microalgae for biodiesel is technically feasible. Studies had shown that algae biofuel has the potential to completely displace liquid fuels derived from petroleum. Economics of producing microalgal biodiesel need to improve substantially to make it competitive with petrodiesel, but the level of improvement necessary appears to be attainable.


Keywords


Microalgae, Biofuels, Nutraceutical, Biomass, D. tertiolecta, D. salina.