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BIOENERGY. OUTLINE. Introduction Why Bioenergy? Cellulosic Ethanol Technology Challenges Industrial tour Importance in my research Summary. Introduction. Southeast: Favorable climate Multiple feedstocks Existing infrastructure. The University of Georgia Conference Center.
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OUTLINE • Introduction • Why Bioenergy? • Cellulosic Ethanol Technology • Challenges • Industrial tour • Importance in my research • Summary
Introduction • Southeast: • Favorable climate • Multiple feedstocks • Existing infrastructure The University of Georgia Conference Center
Why Bioenergy? • Reduce the dependence on imported oil (US imports 10 million barrels per day). • Reduce the release of greenhouse gases (Bioethanol reduces accumulation of carbon dioxide by 90% compared to reformulated gasoline).
Why Bioenergy? • Petroleum represents a 40% of the source energy used in USA. • Cellulosic biomass is an inexpensive resource. • When added to gasoline, increases octane and provides oxygen, increases combustion reducing the gas pollution.
Cellulosic Ethanol Technology Sugar and lignin Intermediates Sugar Platform -Enzymatic Hydrolysis -Lignin Products Products: Fuel, Chemicals, Materials,Heat and Power Biomass -Residue Harvesting -Energy Crops Biorefineries Thermochemical Platform -Pyrolysis -Gasification Gas and Liquid Intermediates Source:Bioenergy Conference 2008
B3I (Biofuels, Biopower, Biomaterials Initiative ) Source: Joy Doran Peterson
Cellulose biomass processing Source: Joy Doran Peterson
Future in cellulose biomass processing Source: Joy Doran Peterson
Cellulosic plants Challenges Identify the best conversion Technologies Development of public-private sector partnerships
Ethanol • Today ethanol is made primarily from starch based sources like corn and sorghum. • Ethanol production has a 34% energy gain (1 gallon of ethanol contains more energy that is required to produce it). Gasoline has an energy loss of 19.5%.
Ethanol and Corn Prices Source: USDA (United States Department of agriculture)
Challenges • Develop fuels and chemicals by forestry and agricultural residues. • Cost reductions technology advances (>100 gallons per ton of dry cellulosic biomass). • Important cost contributors (feedstock costs represent 70-80% of the final product cost).
Challenges • Pretreatment (less chemicals and energy). • In 2025 farms will provide 25% of the total energy consumed in USA. • Georgia is projected to produce 100 million of biodiesel and 400 million of ethanol by 2012. • To produce 36 billion gallons of ethanol in 2022.
FIRST UNITED ETHANOL 100 Million gallon corn ethanol facility
Products for: laminating, painting, moulding, shaping and wrapping Timber processing 100% Southern Yellow Pine
Steam Boilers • Hot Water Boilers • Wood and Waste Fired Boilers • BioMass Boilers Goal: reduce or eliminate energy and waste disponsal costs
PLYWOOD OPERATION PAULOWNIA TREE Production: 40 tons per acre per year
Importance in my research • Pretreatment represents about 20% of the total production cost. • Pretreatment disrupts the naturally resistant carbohydrate-lignin shield that limits the accessibility of enzymes to cellulose and hemicellulose. • The chemical pretreatment offers high yields and low costs economic success.
Summary • Pretreatment is the key to obtain low costs. • Achieve high yield of sugar from biomass with low cost. • More study is needed to make a commercial process. • It is important to integrate the process.
Summary • The Souhteast can be a national leader in biofuel production due its high feedstocks resources. • Develop effective policies to accelerate commercialization, improve knowledge of cellulosic conversion and identify new technology.
