Nexant Forecasts Evolving Diversity in Biofuel Feedstocks and Technologies.New Multifaceted Technoeconomic Study Sees Strong Global Production Growth WHITE PLAINS, N.Y. -- A newly published study by Nexant, Inc. -- Liquid Biofuels: Substituting for Petroleum -- looks at current, emerging, and potential future technologies to produce biogasoline and biodiesel, considering all key elements of the value chain, including agricultural, logistical, and processing. Emphasizing technoeconomic modeling, it details development trends around the world and analyzes key policy drivers, including rural development, energy independence, and reduced carbon footprint A carbon footprint is the total amount of carbon dioxide (CO2) and other greenhouse gases emitted over the full life cycle of a product or service. , and considers a full range of technical, feedstock, and alternative biofuel bi·o·fuel n. Fuel such as methane produced from renewable resources, especially plant biomass and treated municipal and industrial wastes. bi product options. The study concludes that fatty acid methyl ester A fatty acid methyl ester (FAME) can be created by an alkali catalyzed reaction between fats or fatty acids and methanol. The molecules in biodiesel are primarily FAMEs, usually obtained from vegetable oils by transesterification. biodiesel will probably be a transition technology, capable of substituting for only a small fraction of global diesel demand. However, as a biodegradable, low-toxicity product, it will likely hold market share far into the future. Bioethanol from grains and sugar, though an excellent high-octane gasoline blendstock, has many practical problems and is also likely to be transitional over the long term. Nexant projects that the next phase of development is likely to be ethanol made by fermentation of sugars obtained through biomass hydrolysis hydrolysis (hīdrŏl`ĭsĭs), chemical reaction of a compound with water, usually resulting in the formation of one or more new compounds. . Nexant also concludes that, perhaps sooner than some may believe, integrated thermochemical platforms will take the lead in producing both gasoline and diesel range biofuels (biomass-to-liquids [BTL BTL Between the Lines BTL Battle BTL Bottle BTL Buy To Let BTL Below The Line (advertising) BTL Biomass-to-Liquids BTL Bubba the Love Sponge BTL Between the Lions (PBS children's TV show) ], similar to coal-to-liquids and gas-to-liquids), most likely in conjunction with electric power and chemicals. This alternative should be -- and probably will be -- pursued contemporaneously with developing biomass-based ethanol. Regardless of which substrate is used to produce it, ethanol will eventually need to be dehydrated de·hy·drate v. de·hy·drat·ed, de·hy·drat·ing, de·hy·drates v.tr. 1. To remove water from; make anhydrous. 2. To preserve by removing water from (vegetables, for example). to hydrocarbon gasoline fractions that are more compatible with the existing fuel distribution and vehicle infrastructure. In adopting ethanol dehydration, higher alcohols, and biofuels from syngas
Syngas (from synthesis gas) is the name given to a gas mixture that contains varying amounts of carbon monoxide and hydrogen generated by the gasification of a carbon containing fuel to a gaseous product with , society will make tradeoffs between two options: (1) the current renewable, sustainable biofuels that are biodegradable and have low toxicity, but have limited supply potential, and (2) other biofuels that are equally renewable and have small carbon footprints but are less biodegradable or more noxious -- yet are more attractive in other ways. While crop biotechnology may provide a more productive, varied, and stable feedstock platform for a biofuels industry, the potential for early conflict with food is probably underestimated. The role of byproducts such as DDGS DDGS Distillers Dried Grains with Solubles (agri-business) , and possibly biodiesel glycerine glycerine see glycerin. , in balancing animal nutrition supplies is conversely underrated or even missed by many analysts. Nonetheless, the market's mere perception of competition of biofuels for sugar and grains with the food, feed, and fibers sectors seems to be enough to cause dislocations. This is already evident in the markedly higher late 2006 prices for U.S. corn, Brazilian sugarcane, and European rapeseed rapeseed the seed of Target rape grown specifically for the seed and its oil. rapeseed meal as oil cake or meal after rapeseed oil is removed this is a high-protein feed supplement used in cattle. -- each the primary biofuel feedstock in its venue. The study outlines a number of highly attractive "paths of least resistance" for developing the global biofuels industry based on leveraging current or co-developing technologies, such as coal gasification and gas-to-liquids catalysis catalysis Modification (usually acceleration) of a chemical reaction rate by addition of a catalyst, which combines with the reactants but is ultimately regenerated so that its amount remains unchanged and the chemical equilibrium of the conditions of the reaction is not . For the interim strategy of fermenting sugars from biomass, a number of preparation options are available, and thermal utilization of fermentation process residues needs to be carefully considered. For the thermochemical platform of the future, more work must be done to develop in-field pyrolysis py·rol·y·sis n. Decomposition or transformation of a chemical compound caused by heat. pyrolysis (pīrol´isis), n of biomass to help overcome logistics challenges, as well as biomass gasification gas·i·fy tr. & intr.v. gas·i·fied, gas·i·fy·ing, gas·i·fies To convert into or become gas. gas and system optimization. The study profiles a broad range of agricultural and biotechnology platforms and issues, and its geographic coverage includes the countries playing significant roles in biofuel feeds, production, and/or technology development over the next decade, including: * The Americas -- primarily, the U.S., Brazil, and Canada, and also other countries in the hemisphere with activities in liquid biofuels * Europe -- Western, Central, and Eastern, and Russia * Asia -- primarily, China, Japan, India, Thailand, and Malaysia, and also other countries in Asia with activities in liquid biofuels * Africa (primarily South Africa) and Australia For additional information, please contact Mr. Ronald Cascone at telephone: +1-914-609-0316 or email: rcascone@nexant.com, or Ms. Heidi Junker Coleman at telephone: +1-914-609-0381 or email: hcoleman@nexant.com. ABOUT NEXANT Nexant's products and services help clients solve critical strategic and operational challenges in several key areas: chemicals and petrochemicals, oil and gas, electric power, energy management, energy technology, retail and wholesale power markets, and enterprise risk management. The company is headquartered in San Francisco, CA and maintains offices in London, U.K.; Bangkok, Thailand; Tokyo, Japan; Beijing, China; Seoul, South Korea; White Plains, NY; Washington, D.C.; Houston, TX; Madison, WI; Boulder, CO; Salt Lake City, UT; Phoenix, AZ; and Los Angeles, CA. The company is owned by a select group of investors and Nexant management and employees. Nexant[R] is a proprietary trademark of Nexant, Inc. |
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