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Biodiesel production from heterotrophic microalgae through transesterification and nanotechnology application in the production

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  • Zhang, X.L.
  • Yan, S.
  • Tyagi, R.D.
  • Surampalli, R.Y.

Abstract

Vegetable oils and animal fats are the most often used feedstock in biodiesel production; however, they are also used in food production, which results in increasing the feedstock price due to the competition. Therefore, alternative feedstock is required in biodiesel production. Heterotrophic microalgae are found capable of accumulating high lipid (up to 57% w/w). They can use complex carbons such as sweet sorghum and Jerusalem artichoke as nutrients to produce equivalent quantity oil as that of using glucose, which provides a cheap biodiesel production strategy. It was found that nanomaterials could stimulate microorganism metabolism, which suggested that nanomaterial addition in the cultivation could enhance lipid production of microalgae. Furthermore, the use of nanomaterials could improve the efficiency of the lipid extraction and even accomplish it without harming the microalgae. Nanomaterials such as CaO and MgO nanoparticles have been used as biocatalyst carriers or as heterogeneous catalyst in oil transesterification to biodiesel. In this paper, the factors that could impact on lipid accumulation of heterotrophic microalgae are critically reviewed; the advances on application of nanotechnology in microalgae lipid accumulation, extraction, and transesterification are addressed.

Suggested Citation

  • Zhang, X.L. & Yan, S. & Tyagi, R.D. & Surampalli, R.Y., 2013. "Biodiesel production from heterotrophic microalgae through transesterification and nanotechnology application in the production," Renewable and Sustainable Energy Reviews, Elsevier, vol. 26(C), pages 216-223.
    • Handle: RePEc:eee:rensus:v:26:y:2013:i:c:p:216-223
    DOI: 10.1016/j.rser.2013.05.061
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    2. Milano, Jassinnee & Ong, Hwai Chyuan & Masjuki, H.H. & Chong, W.T. & Lam, Man Kee & Loh, Ping Kwan & Vellayan, Viknes, 2016. "Microalgae biofuels as an alternative to fossil fuel for power generation," Renewable and Sustainable Energy Reviews, Elsevier, vol. 58(C), pages 180-197.
    3. Bharathiraja, B. & Chakravarthy, M. & Ranjith Kumar, R. & Yogendran, D. & Yuvaraj, D. & Jayamuthunagai, J. & Praveen Kumar, R. & Palani, S., 2015. "Aquatic biomass (algae) as a future feed stock for bio-refineries: A review on cultivation, processing and products," Renewable and Sustainable Energy Reviews, Elsevier, vol. 47(C), pages 634-653.
    4. Sirajunnisa, Abdul Razack & Surendhiran, Duraiarasan, 2016. "Algae – A quintessential and positive resource of bioethanol production: A comprehensive review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 66(C), pages 248-267.
    5. Shah, Syed Hasnain & Raja, Iftikhar Ahmed & Rizwan, Muhammad & Rashid, Naim & Mahmood, Qaisar & Shah, Fayyaz Ali & Pervez, Arshid, 2018. "Potential of microalgal biodiesel production and its sustainability perspectives in Pakistan," Renewable and Sustainable Energy Reviews, Elsevier, vol. 81(P1), pages 76-92.
    6. Baskar, G. & Gurugulladevi, A. & Nishanthini, T. & Aiswarya, R. & Tamilarasan, K., 2017. "Optimization and kinetics of biodiesel production from Mahua oil using manganese doped zinc oxide nanocatalyst," Renewable Energy, Elsevier, vol. 103(C), pages 641-646.

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