Tag Archives: algae
Sun, Water, CO2 And Algae: A Recipe For Biofuel?
Plant-based biofuels were initially hailed as the answer to all problems posed by traditional fossil fuels. Supply is unlimited and they are also neutral to emissions harmful to the environment also. But using plants has led to other problems, which a team of European scientists hopes to get around by using aquatic organisms to create fuels from the sun, carbon dioxide (CO2) and water. The nine-partner team behind the EU-funded project DIRECTFUEL (‘Direct biological conversion of solar energy to volatile hydrocarbon fuels by engineered cyanobacteria’) believes the answer could lie in aquatic organisms . The team is developing photosynthetic microorganisms able to catalyse the conversion of solar energy and CO2 into engine-ready fuels. Plant biomass is definitely cleaner than fossil fuels. However, the plants used to create fuel are frequently in competition with food crops , particularly in poorer countries, while cultivation of plants for biomass can also have a detrimental impact on neighbouring agricultural land. Plants also convert solar energy relatively slowly. The research by DIRECTFUEL’s team involves three key steps: enzyme discovery and engineering, metabolic engineering of cyanobacteria (a type of micro-algae) and design of the production process. The target fuels are non-toxic and have been shown to be compatible with combustion engines that have been slightly modified and even with normal ones. Central to the project is the construction of biochemical pathways not existing in nature for the synthesis of ethylene, ethane and propane. The team’s research has already increased understanding of the factors important for catalytic conversion by studying the mechanism of a candidate enzyme. The next step is to use enzyme engineering to program the enzymes to act on desired substrates. Work on targeted enzyme engineering at the biosynthesis of volatile alkanes is underway, and the team is now working to engineer the metabolism of the host organisms in order to enhance CO2 assimilation and thus increase yield. To be able to engineer the metabolism of cyanobacteria, the researchers needed to first understand and be able to predict which modifications in the biochemical pathways will have which impact on metabolism. To make this possible, the team is using a computational model developed by one of the DirectFuel partners. The model will also be improved and expanded during the project to boost its effectiveness in predictive engineering. In addition, a preliminary process layout has been prepared and a laboratory-scale photo-bioreactor constructed. Cultivation of the essential cyanobacteria can be carried out on land unsuitable for agriculture, and in enclosed containers that require no soil, thus eliminating any competition between land for food and fuel production. It will take time before the technology developed within DIRECTFUEL is on the market, but the eventual impact is likely to be considerable in the production of carbon-based fuels and chemicals. The research has already attracted interest from petroleum gas associations. The DIRECTFUEL project has received almost EUR 5 million in EU funding and runs from 2010 until 2014. It is coordinated by the University of Turku in Finland. Read more at: http://phys.org/news…iofuel.html#jCp Continue reading
DOE Invests In Algae, Biomass Supply Chain
The U.S. DOE has announced more than $22 million in new investments to help develop cost-competitive algae fuels and to streamline the biomass feedstock supply chain for advanced biofuels. Of the investment, nearly $16.5 million will be split between four algae projects; two located in California, one in Hawaii and another in New Mexico. The goal is to boost the productivity of sustainable algae while reducing capital and operating costs. Hawaii Bioenergy was awarded a $5 million investment to develop a photosynthetic open pond system to produce algae oil. The project will also demonstrate reprocessing technologies that reduce energy use and the overall cost of extracting lipids and producing fuel intermediates. Sapphire Energy was also awarded $5 million. The funding will support the development of a new process to produce algae-based fuel that is compatible with existing refineries. The project will also work on improving algae strains and increasing yield through cultivation improvements. An additional $5 million will go to New Mexico State University, where the investment will support research to increase the yield of microalgae. The project will also develop harvesting and cultivation processes that lower costs while supporting year-round production. Finally, California Polytechnic State University is receiving $1.5 million to increase the productivity of algae strains and compare two processing technologies. The project, based at a wastewater treatment plant in Delhi, Calif., includes 6 acres of algae ponds. The remaining $6 million will support a project led by RDC Enterprises to reduce the harvesting, handling and preprocessing costs of the biomass feedstock supply chain. Continue reading
U.S. Awards $22.5 Million to Groups Developing Algae Biofuels
By Justin Doom – Aug 1, 2013 The U.S. Energy Department awarded about $22.5 million in grants to companies and researchers seeking to produce fuel from algae and other types of biomass. Hawaii BioEnergy LLC, Sapphire Energy Inc. and New Mexico State University each will receive $5 million to develop algae-based fuel technologies, according to a statement today on the department’s website. California Polytechnic State University will get $1.5 million to develop more producive algae. FDC Enterprises Inc. will get about $6 million to improve processes for collecting and distributing wood, grass and agricultural waste that’s converted into fuel. To contact the reporter on this story: Justin Doom in New York at jdoom1@bloomberg.net To contact the editor responsible for this story: Will Wade at wwade4@bloomberg.net Continue reading