BIOFUELS SUPPLEMENT
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A bi-weekly summary of world developments on biofuels, produced by the Global Knowledge Center on Crop Biotechnology, International Service for the Acquisition of Agri-biotech Applications SEAsiaCenter (ISAAA)
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February 9, 2007
In This Issue:
News and Trends
- Advanced Energy Initiative Highlights Need to Accelerate Cellulosic Ethanol Development
- Alternative Fuels Group of the Philippine National Oil Corporation (PNOC) Seeking Partners for Biodiesel Projects
- Palm Plantation Farming Practice Show the Need for Life Cycle Studies to Evaluate if a Particular Biofuel is Really “Green”
- New Zealand Gears Up Cellulosic Ethanol Development
Energy Crops and Feedstocks for Biofuels Production
- Study Quantifies Sustainable Collection of Corn Stover for Bioenergy
Biofuels Processing
- Carnegie Mellon University Engineers Improve Ethanol Distillation Process for Better Energy Efficiency
Biofuels Policy and Economics
- Technological Options for Bioenergy Development
- Agricultural Research in the Framework for Bioenergy
DOCUMENT RELEASE/RESOURCES
* NEWS AND TRENDS *
Advanced Energy Initiative Highlights Need to Accelerate Cellulosic Ethanol Development
http://www.whitehouse.gov/news/releases/2006/01/20060131-6.html
http://news.com.com/Fuels+industry+seeks+its+ethanol+2.0/2100-11395_3-6153349.html
In his State of the Union address, United States President George W. Bush has set the goal for greater use of renewable fuels as part of his “Advanced Energy Intitiative” to replace more than 70% of its Middle East oil imports by 2025. The need for quicker development of cost effective technologies for the production of fuel ethanol from cellulosic materials (i.e. plant fibers such as switch grass) was highlighted. Experts believe that in order to accomplish the set energy goals, “cellulosic ethanol” would be the recommended option for the future. Among its mentioned advantages over “corn ethanol” are: lesser agricultural and energy inputs for production, non-competition with food crops and lesser greenhouse emissions. According to Mr. Bob Dineen, President of the U.S. Renewable Fuels Association, the call for accelerated research and development in cellulosic ethanol “will stimulate new investments in ethanol technologies”. Mr. William Baum, excecutive vice-president of Diversa (an enzyme production company) mentions that the original 5 to 6 years timetable for cellulosic ethanol technology development may be cut to 3 years..
Alternative Fuels Group of the Philippine National Oil Corporation (PNOC) Seeking Partners for Biodiesel Projects
http://www.pnoc.com.ph/news/news.asp?id=2
http://business.inquirer.net/money/topstories/view_article.php?article_id=46842
Mr. Peter Paul Abaya, president of the PNOC-Alternative Fuels Group, mentions that the company is undertaking partnerships interested in biodiesel-related projects. Many of these involve Jatropha plantations and refineries. Interested groups include Samsung and Sumitomo Corporations. The Philippine Army has also offered about 130,000 hectares of land in their camps for Jatropha plantations, while the Department of Justice has offered 50,000 hectares for Jatropha in three penal colonies..
Palm Plantation Farming Practice Show the Need for Life Cycle Studies to Evaluate if a Particular Biofuel is Really “Green”
http://news.com.com/Once+a+dream+fuel%2C+palm+oil+may+be+an+eco-nightmare/2100-11395_3-6155059.html
http://www.wetlands.org/news.aspx?ID=2817de3d-7f6a-4eec-8fc4-7f9eb9d58828
Although ethanol is a major biofuel source in many countries, there are instances where plant oils (such as palm oil from Southeast Asia) are used as direct substitute to diesel for electricity generation. Palm oil is said to produce “the most energy of all vegetable oils for each unit of volume when burned”. According to the news article above, the high demand of palm oil in Europe has resulted in the clearing and draining of peatlands for conversion into palm plantations. Wetlands International reports that peat fires (which may occur during decomposition of peatlands after drainage) contributes to large-scale carbon dioxide emissions. Peder Jensen, of the European Environment Agency in Copenhagen, mentions that whether a particular biofuel can reduce greenhouse emissions or not, will depend on the proper choice of plant feedstock, and how they are grown and processed. He also cites the importance of life cycle studies, which may be helpful for evaluating sustainability of a particular biofuel..
New Zealand Gears Up Cellulosic Ethanol Development
http://www.scionresearch.com/media+releases.aspx?PageContentID=990
http://www.seedquest.com/News/releases/2007/january/18175.htm
http://news.com.com/New+Zealand+looks+at+nationwide+ethanol+plan/2100-1008_3-6153756.html
A collaborative research program between two New Zealand Crown Research Institutes (Scion and AgResearch) and Diversa Corporation of the United States has been formed to harness New Zealand’s cellulose-based resources (i.e., wood biomass from plantation forests and grasses) to biofuels. The partnership combines Diversa’s proprietary technologies in metagenomic enzyme discovery and biochemical process optimization with the research capability/expertise of Scion and AgResearch to convert wood biomass and grasses to ethanol.
Technical aspects of the research would look (among other things) into the feasibility of using novel enzymes as a component in pulp/paper manufacturing processes for ethanol production, and to assess the bioethanol potential of feed stocks such as grasses. Economic aspects of the study would include identification of “potential risks or barriers to commercialization plans”.
New Zealand’s Ministry of Climate Change is said to be finalizing the country’s response to climate change and to produce cost-effective and clean energies. The project would be in line with these initiatives..
“Metagenomics”, as cited in Wikipedia (http://en.wikipedia.org/wiki/Metagenomics), has been defined as "the application of modern genomics techniques to the study of communities of microbial organisms directly in their natural environments, by-passing the need for isolation and lab cultivation of individual species."
A report from the Food Policy and Research Institute (IFPRI) presents an overview of technological options for bioenergy production and how these options could be harnessed for application in developing countries:
(1) The first generation technologies are processes utilizing traditional energy feedstocks such as (a) saccharine or starchy materials for ethanol production by the biochemical route (fermentation or enzymatic)), (b) oilseed crops such as soybean, palm, and rapeseed for biodiesel production by the chemical or enzymatic route , (c) and agricultural wastes/residues like wood chips and animal manure which can be burned directly or process into biogas (by fermentation) for fuel. First generation technologies have been refined and improved over the years, but challenges remain with respect to making the bioenergy product cost competitive relative to fossil fuels.
(2) The second generation technologies are those which utilize cellulose-rich biomass for ethanol production (by fermentation and/or enzymatic methods) or for hydrocarbon fuel production (by thermochemical processes such as pyrolysis or gasification). The second generation technologies (presently in active R and D) are said to have the following advanges: non-competition of cellulosic biomass with food crops, possible cultivation of cellulosic biomass in low-rainfall, poor soils.
(3) developing countries could leapfrog first generation technologies for their transport and electricity requirements. With respect to cellulosic feedstocks in second generation technologies, small-farm production would be beneficial in uplifting way of life for rural farmers; however, they organizing small farmer groups to market their produce to large scale processors may be needed.