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Bioethanol's impact on water supply 3 times higher than once thought
August 06, 2009At a time when water supplies are scarce in many areas of the United States, scientists in Minnesota are reporting that production of bioethanol - often regarded as the clean-burning energy source of the future - may consume up to three times more water than previously thought. Their study appeared in ACS' journal Environmental Science & Technology.
Sangwon Suh and colleagues point out in the study that annual bioethanol production in the U.S. is currently about 9 billion gallons and note that experts expect it to increase in the near future. The growing demand for bioethanol, particularly corn-based ethanol, has sparked significant concerns among researchers about its impact on water availability. Previous studies estimated that a gallon of corn-based bioethanol requires the use of 263 to 784 gallons of water from the farm to the fuel pump. But these estimates failed to account for widely varied regional irrigation practices, the scientists say.
The scientists made a new estimate of bioethanol's impact on the water supply using detailed irrigation data from 41 states. They found that bioethanol's water requirements can be as high as 861 billion gallons of water from the corn field to the fuel pump in 2007. And a gallon of ethanol may require up to over 2,100 gallons of water from farm to fuel pump, depending on the regional irrigation practice in growing corn. However, a dozen states in the Corn Belt consume less than 100 gallons of water per gallon of ethanol, making them better suited for ethanol production. "The results highlight the need to take regional specifics into account when implementing biofuel mandates," the article notes.
American Chemical Society
American Chemical Society
Bioethanol Current Events and Bioethanol News RSSUC Riverside Researchers Create First Synthetic Cellulosome in Yeast
A team of researchers led by University of California, Riverside (UCR) Professor of Chemical Engineering Wilfred Chen has constructed for the first time a synthetic cellulosome in yeast, which is much more ethanol-tolerant than the bacteria in which these structures are normally found.
UNEP report details surprising green energy investment trends worldwide
Some $155 billion was invested in 2008 in clean energy companies and projects worldwide, not including large hydro, a new report launched today says.
Using combinatorial libraries to engineer genetic circuits advances synthetic biology
Streamlining the construction of synthetic gene networks has led a team of Boston University researchers to develop a technique that couples libraries of diversified components with computer modeling to guide predictable gene network construction without the back and forth tweaking.
Commercial yeasts upgraded with an enzyme for biofuel production
Eckhard Boles, co-founder of the Swiss biofuel company Butalco GmbH and a professor at Goethe-University in Frankfurt, Germany, has discovered a new enzyme which teaches yeast cells to ferment xylose into ethanol. Xylose is an unused waste sugar in the cellulosic ethanol production process. The researchers have recently filed a patent application for their process.
Microbes fuel energy debate
Microbes may well be the answer to our global energy crisis. By fermenting biomass to produce biofuels, they offer a possible climate-friendly solution to the anticipated shortfall in fossil fuel supply.
Compost heap bacteria could provide 10 percent of UK transport fuel needs
Bacteria found in compost heaps able to convert waste plant fibre into ethanol could eventually provide up 10% of the UK's transport fuel needs, scientists heard today (Tuesday 9 September 2008) at the Society for General Microbiology's Autumn meeting being held this week at Trinity College, Dublin.
Desert plant may hold key to surviving food shortage
The plant, Kalanchoe fedtschenkoi, is unique because, unlike normal plants, it captures most of its carbon dioxide at night when the air is cooler and more humid, making it 10 times more water-efficient than major crops such as wheat. Scientists will use the latest next-generation DNA sequencing to analyse the plant's genetic code and understand how these plants function at night.
Money Doesn't Grow on Trees, But Gasoline Might
Researchers have made a breakthrough in the development of "green gasoline," a liquid identical to standard gasoline yet created from sustainable biomass sources like switchgrass and poplar trees.
International effort takes critical steps to accelerate growth of global biofuels market
The governments of the United States, Brazil and the European Union (EU)-the world's major producers of biofuels-today released an analysis of current biofuel specifications with the goal of facilitating expanded trade of these renewable energy sources.
Social habits of cells may hold key to fighting diseases
Scientists in Manchester are working to change the social habits of living cells - an innovation that could bring about cleaner and greener fuel and help fight diseases such as cancer and diabetes.
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Handbook on Bioethanol: Production and Utilization (Applied Energy Technology Series) by Charles Wyman (Author) Bioethanol is a versatile transportation fuel and fuel additive that offers excellent performance and reduced air pollution compared to conventional fuels. Its production and use adds little, if any, net release of carbon dioxide to the atmosphere, dramatically reducing the potential for global climate change. Through a sustained research program and an emerging economic competitiveness, the technology for bioethanol production is poised for immediate widespread commercial applications. Written by engineers and scientists providing a technical focus, this handbook serves as a unique, authoritative, and concise source of information on- § The benefits of bioethanol to the environment and economy § Bioethanol conversion technologies § Future markets and ethanol's value in those... |
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OZOfire Safe, Clean Bio-Ethanol Fuel for Ventless Fireplaces by Ozo Fire OzoFire is a clean burning, Bio-Ethanol Fuel that is for Ventless Fire Places. Easy to use. Follow directions on the bottle. |
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Bioethanol: Production, Benefits and Economics by Jason B. Erbaum (Editor) The principle fuel used as a petrol substitute for road transport vehicles is bioethanol. Bioethanol fuel is mainly produced by the sugar fermentation process, although it can also be manufactured by the chemical process of reacting ethylene with steam. The main sources of sugar required to produce ethanol come from fuel or energy crops. These crops are grown specifically for energy use and include corn, maize and wheat crops, waste straw, willow and popular trees, sawdust, reed canary grass, cord grasses, Jerusalem artichoke, myscanthus and sorghum plants. Ethanol or ethyl alcohol (C2H5OH) is a clear colourless liquid, it is biodegradable, low in toxicity and causes little environmental pollution if spilt. Ethanol burns to produce carbon dioxide and water. Ethanol is a high octane fuel... |
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Seaweed Biofuels: Production of Biogas and Bioethanol from Brown Macroalgae by Svein Jarle Horn (Author) Our modern society?s high dependence on fossil fuels is problematic because of climate change, energy security and depletion of finite energy resources. There is currently a strong demand to develop biofuels as a sustainable alternative. However, food and biofuel production may compete for the same crop land. Thus, the focus should be on ?second generation? biofuels which are produced from non- food biomass. In this regard cultivation of seaweeds as an energy crop has a great potential. This book shows how bioethanol and biogas can be produced from brown seaweeds using fermentation and anaerobic degradation processes. The potential of large scale cultivation of macroalgae for biofuel production is discussed, and ideas for future research are presented. The... |
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OZOFire Bio-Ethanol Liquid Fuel for Fireplaces 6pk of 1 quart bottles by Anywhere Fireplace OZOFireTM was created especially for Indoor Ventless Fireplaces and is totally safe for you and the planet. It is a clean, sustainable Bio-Ethanol fuel specially formulated to provide the cleanest fire possible while complying with all regulations required by U.S. Government Agencies. The only byproducts created when burning OZOFireTM fuel are water vapor and very small amounts of carbon dioxide; no toxins or offensive fumes are emitted. The flame is clean and odorless. OZOFireTM burns efficiently and there is no oily residue left in the tank as with other Bio-Ethanol fuels which contain petroleum distillates. |
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Feasibility of producing bio-ethanol from waste residues: A Canadian perspective [An article from: Resources, Conservation & Recycling] by P. Champagne (Author) This digital document is a journal article from Resources, Conservation & Recycling, published by Elsevier in 2007. The article is delivered in HTML format and is available in your Amazon.com Media Library immediately after purchase. You can view it with any web browser. Description: To date, the ethanol production industry in Canada is comprised mainly of small-scale plants producing ethanol primarily from agricultural crops as feedstocks. Research interests in the area of bio-ethanol production from organic waste materials emerged in the late 1980s. Significant advances in lignocellulosic material extraction and enzymatic hydrolysis have been reported in the last decade, however, continued research efforts are critical for the development of technically feasible and... |
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Bio-Ethanol Fuel by Chiasso Dazzling... Our fireplaces use the smokeless odorless bio-ethonal fuel available here. Sold per bottle, each container will provide several hours of use. Please be sure to follow all instructions and directions carefully for the fireplace and fuel. If any |
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21st Century Ethanol, Gasohol, and Renewable Fuels Digest ¿ Fuel Ethanol, E85 Fuel, Bioethanol, Dry-Mill Production, Grain and Cellulosic Sources, Agricultural Issues, Energy Department Alternative Fuels Information, Agriculture Department on Corn Ethanol ¿ Series on Renewable Energy, Biofuels, Bioenergy, and Biobased Products by U.S. Government (Author) This is a collection of authoritative documents and publications about ethanol, including fuel ethanol, E85 ethanol, gasohol, bioethanol, dry-mill production, grain and cellulosic sources, agricultural issues, energy department alternative fuels information, agriculture department on corn ethanol, and more. CRS Report for Congress on Fuel Ethanol, Background and Public Policy Issues, Fuel Ethanol: Background and Public Policy Issues – The Summary states: "In light of a changing regulatory and legislative arena, ethanol as a motor fuel has taken on a pivotal role in bringing together often conflicting environmental and energy security interests. Ethanol is produced from biomass (mainly corn) and is mixed with gasoline to produce cleaner-burning fuel called "gasohol" or "E10." The... |
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A review of assessments conducted on bio-ethanol as a transportation fuel from a net energy, greenhouse gas, and environmental life cycle perspective [An article from: Journal of Cleaner Production] by H. von Blottnitz (Author), M.A. Curran (Author) This digital document is a journal article from Journal of Cleaner Production, published by Elsevier in 2007. The article is delivered in HTML format and is available in your Amazon.com Media Library immediately after purchase. You can view it with any web browser. Description: Interest in producing ethanol from biomass in an attempt to make transportation ecologically sustainable continues to grow. In recent years, a large number of assessments have been conducted to assess the environmental merit of biofuels. Two detailed reviews present contrasting results: one is generally unfavourable, whilst the other is more favourable towards fuel bio-ethanol. However, most work that has been done so far, to assess the conversion of specific feedstocks to biofuels, specifically... |
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Bio-ethanol steam reforming on Ni/Al"2O"3 catalyst [An article from: Chemical Engineering Journal] by J. Comas (Author), F. Marino (Author), M. Laborde (Author), N. Amadeo (Author) This digital document is a journal article from Chemical Engineering Journal, published by Elsevier in 2004. The article is delivered in HTML format and is available in your Amazon.com Media Library immediately after purchase. You can view it with any web browser. Description: In this work, the ethanol steam reforming on Ni/@cAl"2O"3 catalyst at temperatures between 573 and 773K was studied and an overall reaction scheme as a function of temperature was proposed. It can be concluded that higher water/ethanol ratio (6:1) and higher temperature (773K) promote hydrogen production (91% selectivity). Over Ni-based catalyst there would not be evidences that water gas shift reaction occurs. The presence of oxygen in the feed produces a favorable effect on carbon deposition;... |
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