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Energy and Environment. National Science Foundation Directorate for Engineering Judy Raper and Usha Varshney. Outline. Global need NSF investments Engineering Directorate Programs and initiatives Typical projects. Daily Oil Production. Source: Chicago Tribune. Daily Oil Consumption.
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Energy and Environment National Science Foundation Directorate for Engineering Judy Raper and Usha Varshney
Outline • Global need • NSF investments • Engineering Directorate • Programs and initiatives • Typical projects
Daily Oil Production Source: Chicago Tribune
Energy Demand An Escalating Concern Billion Metric Tons • Energy consumption has soared over the past 50 years, tripling in the United States, and demand is predicted to escalate. • Global energy consumption in 2004 averaged 14.5 terawatts. By the year 2030 that consumption is expected to increase to 23 terawatts. Energy Consumption by Fuel 1980-2030, DOE Annual Energy Outlook 2006
NSF Investments • From $20 million in FY 2003, to $53 million in FY 2005 • FY05 Investments • Individual Principal Investigators (19) • Multidisciplinary teams, NIRT (14) • Centers (2) • CalTech - Materials Science and Hydrogen Storage • University of South Carolina - Fuel Cell Research • Major facilities and instrumentation (16) • Education grants (11) • SBIR/STTR (39) • CAREER (24) • GOALI (6) • SGER (15)
ENG: Energy Related Programs and PDs • Chemical, Bioengineering, Environmental & Transport Processes (CBET) • Environmental Sustainability (Cindy Lee) • Energy for Sustainability (Vacant) • Civil, Mechanical,& Manufacturing Innovation (CMMI) • Geoenvironmental and Geohazard Mitigation (Rick Fragaszy) • Service Enterprise Engineering (Matthew Realff) • Electrical, Communications & Cyber Systems (ECCS) • Power and Energy Systems and Networks (Vacant)
Future Impact • Continue to Support Proposals for Alternative Energy • Environment Friendly • Reduce Air Pollution • Cost Effective • Monetary • Planetary • Power and Energy Systems and Networks • Interdependencies of Power and Energy on Critical Infrastructures • Power Drives • Sustainable Energy Production • Solar: new materials, devices, systems and manufacturing processes for photovoltaics • Wind: fundamental understanding of wind with the blade structure
Future Impact • Sustainable Energy Production (continued) • Hydrogen: hydrogen from biomass • Renewable and Alternate Energy Sources • Fuel Cells • Low temperature systems: new membrane materials for increased durability • High temperature systems: new solid electrolyte materials • Paradigm Shift on Energy Use • Education • Incentives
Typical Projects and Ideas • Multiple Power Converter Systems • Hydrogen-Electric Power Park • Solar Powered Cell Tower Generator • Ocean Electric Energy Extraction • Multiple-Dye Luminescent Solar Concentrators • Efficient Organic Solar Cells • Solar-Thermal-Electric Power Generation • Reverse Selective Membrane for Hydrogen Purification • Cathodic Reaction in PEM Fuel Cells • New Sorbents for Ultrapurification of Transportation Fuels Benny D. Freeman, UT Austin Umit S. Ozkan, Ohio State U Ralph T. Yang, U Michigan