CH391L/S13/Algal Biofuels: Difference between revisions
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==Cultivation== | ==Cultivation== | ||
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#UW http://2011.igem.org/Team:Washington/Alkanes/Background | #UW http://2011.igem.org/Team:Washington/Alkanes/Background | ||
#Vasudevan [http://link.springer.com.ezproxy.lib.utexas.edu/article/10.1007/s10295-008-0312-2/fulltext.html Biodiesel production—current state of the art and challenges] | #Vasudevan [http://link.springer.com.ezproxy.lib.utexas.edu/article/10.1007/s10295-008-0312-2/fulltext.html Biodiesel production—current state of the art and challenges] | ||
#Borowitzka [http://www.sciencedirect.com.ezproxy.lib.utexas.edu/science/article/pii/S0168165699000838# Commercial production of microalgae: ponds, tanks, tubes and fermenters] | |||
</biblio> | </biblio> | ||
Revision as of 06:31, 17 March 2013
Algal biofuels represent various methods to produce highly reduced hydrocarbons from carbon dioxide using solar energy as the power source and algae, typically microalgae, as the machinery. The primary driving point for photosynthesis powered biofuels is that they do not increase the net carbon content in the air; every molecule of CO2 released during combustion came from one molecule of CO2 fixed during photosynthesis. Since their energy source is sunlight, algal biofuels are considered renewable. Algae are top choices in biofuel engineering due to their far greater photosynthetic efficiency and low growth requirements. In addition, countries that lack reserves of fossil fuels may desire economic independence by reducing imports through domestic fuel product.
History
Cultivation
iGEM Connection
The University of Washington's 2011 iGem Team attempted to use Fatty Acid intermediates into alkanes [1]. They used Acy-ACP Reductase (AAR) to convert long Acyl-ACPs into aldehydes, and then used Aldehyde Decarbonylase (ADC) to convert them into alkanes.
