240 likes | 248 Views
Explore the growth of biofuels in the United States, with a focus on wood, biofuels, and waste as energy sources. Discover the economic, environmental, and social impacts of biofuel production and the policy actions driving its development.
E N D
Biofuels in the USA Dennis Ojima
Renewable Energy in the U.S. - 2006 65% wood 23% biofuels 12% waste Source: http://www.eia.doe.gov/
U.S. Energy Consumption by Source and Sector Source: http://www.eia.doe.gov/
U.S. Energy Consumption by Source and Sector Source: http://www.eia.doe.gov/
Renewable Energy in the U.S. Source: http://www.eia.doe.gov/
USA Maize Production • 40% of global production • 70% of global exports • Developing EtOH capacity > current • Corn subsidies $37 billion 1995-2003 • Corn price ~$2/bu 2004-5, now $3.5 Earth Policy Institute, 2006
http://www.ethanolrfa.org/objects/documents/plantmap_oct_4_2007.pdfhttp://www.ethanolrfa.org/objects/documents/plantmap_oct_4_2007.pdf
Accelerated Domestication • Apply advanced, modern genetic and genomics techniques to accelerate the domestication rate in fast growing short-rotation tree species.
Modern Hybrids • Corn landraces • Teosinte Timeline: 2000 ybp Today 5000 ybp Corn Domestication
Populus as a Model for Biofuels Production • Fastest-growing deciduous tree in U.S. • Genus occurs across broad geographic range • Perennial and clonal • Readily propagated and grown in intensive plantations
WILLOW • SWITCHGRASS • JATROPHA • ALGAE
Innovation in Biofuels • New developments in biofuel production from algae
Solid Biofuel Uses • Heat:highest energy return (80%) • - wood and grass pellets (home) • - briquettes and bales(industrial) • Conversion: • - ethanol from cellulose (biological; • gross yield 50-70 gal/t) • - co-firing with coal for electricity • ~ 20% efficiency with steam turbine • but up to 40% with gasification - thermal pyrolysis (reduced O2) > 600C syngas (H2/CO/CO2/CH4, 70% by wt): use in CHP; co-firing; or synthesis of MeOH or EtOH (78 gal/t) < 600C bio-oil (up to 70% by wt)
Economic Use of Marginal Cropland • Grass Pellets: • - yields of 3 dry US t/acre • - ? retail value, wood pellets currently $180-200/t • - ash issue (3-4% versus <1% for wood) • Wood Chips: • - sustainable forest cull-wood removal 1-2 t/ac/yr • - high value hardwood timber • - currently $20-25/green t • Short Rotation Willow: • - currently ~$28/green t • but qualifies for CRP and • CREP; projected 10 t/acre
Full Life-Cycle Of Biofuel Production Land use Energy use GHG emissions Energy resource depletion associated with production and utilization Water consumption Eutrophication Biodiversity/ Invasive Species Air pollution Socio-economic Impacts Economic impacts Job creation Wealth distribution Food Versus Fuel Social impacts Social responsibility Social equity Considerations for Assessing Sustainable Bioenergy Development Strategies
System Boundary for cradle-to-gate life-cycle assessment for corn production Source: Department of Energy, Office of Energy Efficiency and Renewable Energy
ENVIRONMENT: Energy Balance GHG Land Use Biodiversity Water Nutrients Invasive Biota SOCIAL: Food vs Fuel Aesthetics Economic Jobs/Training Equity Certification
POLICY ACTIONS • FARM BILL • Provides an overall $1 billion to fund programs in the energy title that will leverage renewable energy industry investments in new technologies and new feedstocks • Includes $320 million in loan guarantees for biorefineries producing advanced biofuels • Provides $35 million for a new program to help existing ethanol facilities reduce their fossil fuel use • Provides $120 million for the Biomass Research and Development Program • Funds the Bioenergy Program at $300 million • Creates a Biomass Crop Assistance Program to develop the next generation of feedstocks for renewable energy • Establishes a sugar-to-ethanol program • Provides sugar to biofuel producers at competitive prices
Energy Bill • S. 3233 - A bill to promote development of a 21st century energy system to increase United States competitiveness in the world energy technology marketplace, and for other purposes. • (2) clean energy technologies in vehicles and fuels that will end the reliance of the United States on foreign sources of energy and insulate consumers from the price shocks of world energy markets; • (3) a domestic commercialization and manufacturing capacity that will establish the United States as a world leader in clean energy technologies across multiple sectors; • (4) installation of sufficient infrastructure to allow for the cost-effective deployment of clean energy technologies in each region of the United States; • (5) the transformation of the building stock of the United States to zero net energy consumption. • S. 2730 – Clean Energy Investment Bank Act of 2008: A bill to facilitate the participation of private capital and skills in the strategic, economic, and environmental development of a diverse portfolio of clean energy and energy efficiency technologies within the United States
IN THE NEWS • July 17: DRI and UNR Work Together on Biomass Conversion Process. Researchers from the Desert Research Institute and the University of Nevada, Reno are part of a $4.674 million study by Gas Technology Institute to economically convert any leafy or woody biomass into a uniform, densified feedstock that can be easily fed into any thermal gasifer or pryolyzer for conversion into syngas, fuels and value-added chemicals. • July 16, 2008: Flambeau River BioFuels, Verenuim To Receive DOE Grant Money • July 14, 2008: Louisiana Passes Advanced Biofuel Legislation • July 9, 2008: Biomethodes Develops VT Biofuel Processes
Renewable Energy in the U.S. Source: http://www.eia.doe.gov/