Titlebook: Biomass and Biofuels from Microalgae; Advances in Engineer Navid R. Moheimani,Mark P. McHenry,Parisa A. Bahri Book 2015 The Editor(s) (if a

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Genetic Engineering for Microalgae Strain Improvement in Relation to Biocrude Production Systems,ed strains, which offer efficiency advantages for primary production, and more specifically in the context of production for biocrude and renewable energy. Consequently, we outline the current state of the art in microalgal molecular biology including the available genome sequences, molecular techni

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Harvesting of Microalgae by Means of Flocculation,-renewable energy. A major challenge is harvesting, which requires the separation of a low amount of biomass consisting of small individual cells from a large volume of culture medium. Flocculation is seen as a promising low-cost harvesting method for microalgae biomass. In this chapter, the challen

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,Harvesting and Downstream Processing—and Their Economics,economic viability of algal biofuels. While centrifugation and sedimentation are already scaled to volumes that would allow direct application to algal biofuel production, their economics to the production of biofuel are not favorable. The industry has reevaluated the existing technologies and conti

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Konsum- und Produktionstheorie Id in the presence of organic carbon sources are more suitable for biodiesel oil production than those produced under photoautotrophic conditions. Thus, heterotrophy can be used to reduce the cost of biodiesel oil production, but the effectiveness of the various organic carbons in supporting cell gro

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https://doi.org/10.1007/978-3-658-11142-7RNA guided Cas9 endonucleases (CRISPR), and multiplex automated genome engineering (MAGE). DNA and whole genome synthesis is another enabling technology in Synthetic Biology and might present an alternative approach to drastically and readily modify algae. Clear and powerful examples of the potentia