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Climate Change Technology Program: Deliverables, Analysis and Integration with the CCSP

Climate Change Technology Program: Deliverables, Analysis and Integration with the CCSP. Dave Conover, Director CCTP U.S. Department of Energy David.Conover@hq.doe.gov The Biological and Environmental Research Advisory Committee Washington, D.C. November 13, 2003.

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Climate Change Technology Program: Deliverables, Analysis and Integration with the CCSP

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  1. Climate Change Technology Program:Deliverables, Analysis and Integration with the CCSP Dave Conover, Director CCTP U.S. Department of Energy David.Conover@hq.doe.gov The Biological and Environmental Research Advisory Committee Washington, D.C. November 13, 2003

  2. CCTP Working Groups and Subgroups Climate Change Technology Program Director: David Conover Deputy Director: Robert Marlay DOC, DOD, DOE, DOI, DOS, DOT, EPA, HHS, NASA, NSF, OMB, OSTP, USAID, USDA Energy Production Gail Marcus Energy Efficiency Mark Ginsberg Other Gases Dina Kruger Sequestration Bill Hohenstein • Transportation • Buildings • Industry: • - Low GHG and Efficient Processes • - GHG Capture • Low or Net-Zero GHG Materials • Low or Net-Zero GHG Feedstocks Natural Gas Systems Agric. Methane & Other Gases High GWP Gases Nitrous Oxide Ozone Precursors Black Carbon Geologic Terrestrial Ocean Products/Materials Hydrogen Renewable Fuels Low Carbon Fuels Renewable Power Nuclear Fission Power Nuclear Fusion Power Low Emissions Fossil-Based Power Electric Grid & Infrastructure (i.e., CCT Enabling Elements) Basic Research Ari Patrinos Measurement & Monitoring Ron Birk Biotechnology Physical Sciences Computational Sciences Environmental Sciences Sensors and Platforms Global Monitoring Monitoring Area Sources Inventory Methods

  3. CCTP Deliverables • RFI Analysis for NCCTI Competitive Solicitation • Multi-Agency R&D Baseline for FY 2005 (improved climate change technology criteria and cross-cut) • Technologies Compendium • Current Activities Report • Strategic R&D Vision and Framework

  4. Current Climate Change TechnologyR&D Portfolio Components • Strong Energy Efficiency and Renewable Energy Programs • FreedomCAR • Hydrogen Fuel Initiative (FreedomFuel) • Hydrogen Technology • Nuclear-Based Hydrogen Initiative • Large-Scale Hydrogen Production From Fossil Fuels • Fuel Cell Systems • FutureGEN (Net-Zero Emission FF Power Plants) • Regional Carbon Sequestration Partnerships • Carbon Sequestration Leadership Forum (13 Countries) • Nuclear Power Generation IV (9 Countries) • Nuclear Power 2010 • International Thermonuclear Experimental Reactor (ITER) (4 Countries)

  5. Technology Portfolio Options “Closing the Loop on Carbon” Introduction of Carbon Sequestration and Hydrogen Technologies Augment the Standard Suite of Energy Technologies “A New Energy Backbone” Major Technological Advances in Renewable and Hydrogen Technologies are Coupled with a New Generation of Nuclear Reactors “Beyond the Standard Suite” Dramatic Breakthroughs in “New and Advanced Technologies” – e.g., Fusion, or “Bio-X”

  6. “Closing the Loop on Carbon” • The Standard Suite of Technologies is Substantially Augmented by Engineered CO2 Sequestration, which Meets Key Technical, Economic, and Environmental Goals • Fossil-Based Systems (Fuels, Power, Chemicals) Remain the Backbone of the Energy System • Unconventional Oil & Gas become Economically Viable • Solar, Wind and Bio-Fuels Industries Achieve Maturity • Hydrogen Becomes a Significant Energy Carrier • The Full Potential of Conventional Oil & Gas is Realized • Dramatic Gains in Energy Efficiency Occur • Other GHGs Successfully Addressed • Sustainable Economic Development and Stabilization Achieved

  7. “A New Energy Backbone” • Extraordinary Advances in Solar, Wind, and/or Traditional Bio-Energy are Realized • A New Generation of Economically Competitive, Inherently-Safe Nuclear Fission Power is Accepted by the Global Marketplace • Sequestration is Limited to Niche Markets Limiting Fossil Fuels • Together, Renewables and Nuclear Become the New Backbone of the Energy System • Hydrogen Becomes a Significant Energy Carrier • The Full Potential of Conventional Oil & Gas is Realized • Dramatic Gains in Energy Efficiency Occur • Other GHGs Successfully Addressed • Sustainable Economic Development and Stabilization Achieved

  8. “Beyond the Standard Suite” • Breakthroughs Allow Increasing Reliance on New Technologies that Go Beyond the Standard Suite, for example: • Fusion Power • Global Super-Conductivity Power Transmission Grids, • Orbiting Solar Power Satellites, • An Array of “Bio-X” Technologies (Hydrogen Production, Carbon Sequestration, Bio-Chemical Energy Storage, Electricity Prod., Bio-Based Alternatives to Industrial Feedstocks and Processes) • Hydrogen Becomes a Significant Energy Carrier • The Full Potential of Conventional Oil & Gas is Realized • Dramatic Gains in Energy Efficiency Occur • Other GHGs Successfully Addressed • Sustainable Economic Development and Stabilization Achieved

  9. Integrating Science & Technology • Science Informs Technology Development: • Guides and Paces Overall Strategy by Reducing Uncertainty • Illuminates Technology Risks and Benefits • Informs Modeling and Portfolio Analyses • Technology Advances Solutions: • Create a Robust Set of Options • Improve Performance and Reduce Costs • Inform Scientific Modeling and Identify Research Needs • Together, Science and Technology Can: • Clarify Risks and Benefits of Action • Reduce Costs of Various Courses of Action • Narrow the Gap Between Perceived Benefits and Costs

  10. Ensuring S&T Integration • Structurally by the President through Cabinet-Level CCCSTI • Liaison at staff, steering group, and working group levels • Basic Research, MM and others • Joint Development of Strategic Plans • Interagency comments • December 2002 workshop • On-going dialogue • Leadership at DOC and DOE

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