Cultivation of micro-algae for Production of Biodiesel: An optimized Process

Research in Biotechnology Pub Date : 2016-08-28 DOI:10.19071/rib.2016.v7.3037

A. Demissie, B. Chinthapalli, Shumet Tenaw, D. Chitra

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引用次数: 2

Abstract

Microalgae are considered as one of the potential source of biodiesel for the future. The search to obtain the potential strains from the algal diversity capable of producing oil is critical for sustainable production of biodiesel. In the present study, microalgae biomass with oil/lipid accumulation capability and their morphological features was isolated from Lake Abaya and Chamo. The algal biomass was cultivated in vitro and media optimization for maximum biomass was done using different basal media, BG-11 medium, and Chu -10. In addition the various carbon sources, nitrogen sources, pH and temperature were considered in this study for optimization. Green algae Oedogonium , Chlorella and Cladophora species were observed to be dominant species and the maximum oil per dry algal biomass was found to be from Oedogonium sp. Thus from the present study for the cultivation of the selected algae, BG-11 medium supplemented with tryptone (0.2%) sucrose (2%) and pH- 6 with incubation temperature of 30 0 C was found to be suitable. These results suggest that Oedogonium sp. has several desirable features that make it a potential candidate for biodiesel production.

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微藻生产生物柴油的优化工艺研究

微藻被认为是未来生物柴油的潜在来源之一。从藻类多样性中寻找能够生产油的潜在菌株对生物柴油的可持续生产至关重要。本研究从Abaya湖和Chamo湖分离了具有油脂积累能力的微藻生物量及其形态特征。采用不同的基础培养基、BG-11培养基和Chu -10培养基进行体外培养，以获得最大生物量。此外，本研究还考虑了各种碳源、氮源、pH和温度进行优化。绿藻Oedogonium、小球藻(Chlorella)和Cladophora是优势种，每干藻生物量中最大的油量来自Oedogonium sp.。因此，本研究选择的绿藻的培养培养基为BG-11，添加色氨酸(0.2%)、蔗糖(2%)和pH- 6，培养温度为30℃。这些结果表明，Oedogonium sp.具有几个令人满意的特征，使其成为生物柴油生产的潜在候选者。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Research in Biotechnology

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