Here's an interesting idea: create the clean (or type in a clean) energy that reduce CO2 by using energy from the Sun or bacteria. It may happen. This concept was presented to me first, upstate NY, and during their journey through the visiting a number of universities, including Cornell. One of the cleantech approach Emmanuel Giannelis, Cornell: n KAUST Center for energy and sustainable development, Co-Director, says carbon sequestration – possible values of the nanoparticle materials – could be combined with the Sun photocatalysis-process. "People are focused on systems where you can share the water to hydrogen and oxygen and hydrogen combines sequestered CO2, methane or methanol. You can then save it and use it just like gasoline and other fuels, "he said.
When I did not keep petrol and other fuels such as methane or butane, energy storage, when creating my blog in the form of development is presented in the form of energy storage, energy storage, of course, they are the most commonly used forms. I may not be comprehensive much (if at all) to move forward, but is of the opinion that it was possible to produce "green" fasion (i.e. without petrochemicals or biomass). I learned afterwards that this approach is actually a focus in the ARPA-E-program, called "Electrofuels." Most of the methods to join, the conversion is being carried out by the biomass or waste while also produces liquid transportation fuels directly from the sunlight, and carbon dioxide approaches. Although the photosynthetic routes promise global efficiencies remain low. "In this topic, the objective is to develop a completely new were felt to be liquid fuels, which could be used to resolve the current technological challenges in the production of" finds ARPA-E-site. ARPA-E is looking for technology that can be used in the illicit manufacture of synthetic metabolic engineering and biological approaches to the efficient conversion of liquid carbon dioxide transport fuels. ARPA-E is designed, in particular, be capable of extracting energy from hydrogen, reduced land-abundant metal ions, robust, affordable, easily accessible organic redox active species, or directly to the electrical power to inhibit the development of the community of organisms. Such an approach is, in theory, could be 10 times more efficient than current approaches to photosynthetic biomass liquid fuel production.
One example of the Columbia University researchers use the ammonia oxidizing bacteria chemolithoautotrophic n. europaea produces isobutanol, from carbon dioxide. Team genetically engineer a micro-organism to demonstrate that they reduce effectively ammonia, nitrite may create electrochemically or for the treatment of domestic waste water streams.
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