1. The Nuclear Energy Future John F. Kotek, Deputy Manager Idaho Operations Office U.S. Department of Energy November, 2003 The Government Role in Creating Our Nuclear Energy and Hydrogen Future

2. NuclearEngineeringStudentsPrespppt 2 Office of Nuclear Energy, Science and Technology Why Is Energy Important? ♦Energy is vital to civilization. ♦Our national security, economic prosperity, and global stability are closely tied to energy supplies. Source: Royal Dutch Shell, “Exploring the Future - Energy Needs, Choices and Possibilities

3. NuclearEngineeringStudentsPrespppt 3 Office of Nuclear Energy, Science and Technology Why Is Energy Important? ♦Energy supply in the three major end-use sectors – especially in the transportation sector – is dominated by fossil fuels U.S. Energy Use by Sector U.S. Energy Sources by Energy End-Use Sector

4. NuclearEngineeringStudentsPrespppt 4 Office of Nuclear Energy, Science and Technology Why Is Energy Important? ♦Energy price and economic performance are closely linked Monthly U.S. Gasoline and Electricity Prices Timing of Economic Downturns [light blue bars] and 10% Energy Cost “Shocks” ♦Diversity in energy supply options leads to greater price stability

5. NuclearEngineeringStudentsPrespppt 5 Office of Nuclear Energy, Science and Technology Why Is Nuclear Energy Important? ♦ Nuclear energy enables: Air quality improvement Carbon emission reduction Waste reduction Increased energy security ♦Nuclear energy is affordable Currently operating U.S. nuclear power plants have achieved low operating costs and are attractive in today’s market The challenge is to design new plants that can be built faster and at less cost than today’s reactors Kg CO2/MWhe Source: Uchiyama (CRIEPI, Japan) Oil Liq. Nat. Gas Wind Solar Nuclear Hydro

6. NuclearEngineeringStudentsPrespppt 6 Office of Nuclear Energy, Science and Technology Why Is Nuclear Energy Important? ♦“As the world’s most powerful and prosperous nation, the U.S. must lead the way in developing a diverse energy system that can meet a rapidly growing world energy demand in a way that promotes peace, prosperity, and environmental quality. This diverse energy system must include a growing component of nuclear energy.” - 6 Lab Group (Directors of ANL, INEEL, LANL, LLNL, ORNL, and SNL

7. NuclearEngineeringStudentsPrespppt 7 Office of Nuclear Energy, Science and Technology The National Energy Policy

8. NuclearEngineeringStudentsPrespppt 8 Office of Nuclear Energy, Science and Technology What Is DOE Doing in the Area of Nuclear Energy R&D? ♦ DOE has taken aggressive steps to ensure that nuclear energy plays a large role in our energy future. accelerating and enhancing nuclear energy, reactor waste, and nuclear materials management programs working with industry to reduce regulatory barriers and financial risk to enable the construction of new nuclear power plants planning new research, development, and demonstration facilities attracting new scientists and engineers to the nuclear field Spencer Abraham Secretary of Energy

9. NuclearEngineeringStudentsPrespppt 9 Office of Nuclear Energy, Science and Technology DOE Nuclear Energy Programs ♦ DOE’s nuclear energy programs are focused on:  Improving the efficiency of current reactor operations Deploying new nuclear power plants in the next decade Developing and demonstrating Generation IV reactor technologies Developing advanced fuel cycle technology to reduce the waste burden Ensuring a sufficient supply of trained nuclear professionals to carry out these missions Possible Nuclear Energy Deployment Scenario

10. NuclearEngineeringStudentsPrespppt 10 Office of Nuclear Energy, Science and Technology ♦An R&D program to ensure that current U.S. nuclear plants can continue to deliver adequate and affordable energy supplies by continuing to develop and apply the best technology to enhance nuclear plant reliability, availability, and productivity while maintaining an adequate level of protection of the health and safety of the public. Nuclear Energy Plant Optimization (NEPO) Program

11. NuclearEngineeringStudentsPrespppt 11 Office of Nuclear Energy, Science and Technology Nuclear Power (NP) 2010 Initiative ♦A joint government/industry cost- shared effort to: Identify sites for new nuclear power plants Develop advanced reactor technologies Demonstrate new regulatory processes leading to initiation of private sector construction of new nuclear power plants in the US in 2005 and operation of new nuclear plants in the United States by 2010.

12. NuclearEngineeringStudentsPrespppt 12 Office of Nuclear Energy, Science and Technology Generation IV Nuclear Energy Systems Initiative ♦Supports the need to develop technologies that achieve safety performance, waste reduction, and proliferation resistance while providing the next-generation nuclear energy system that is economically competitive, reliable, sustainable, and ready for deployment before 2030. U.S.A.ArgentinaBrazilUnited KingdomSouth KoreaJapanCanadaFrance Switzerland South Africa

13. NuclearEngineeringStudentsPrespppt 13 Office of Nuclear Energy, Science and Technology Nuclear Hydrogen Initiative ♦Established to identify and evaluate new and innovative concepts for producing hydrogen using nuclear reactors. The energy from one pound of nuclear fuel could provide the hydrogen equivalent of 250,000 gallons of gasoline without any carbon emissions. ♦ Conduct laboratory testing of candidate hydrogen production processes ♦ Complete design and initiate construction of two hydrogen production pilot plants - (200 kW) high temperature electrolysis plant and (500 kW) thermochemical plant ♦ Begin operation of the initial pilot plants ♦ Begin system optimization and scaling of thermochemical pilot plant ♦ Complete designs and start construction of engineering scale hydrogen production systems 200820062007200920102005201520112012 ♦ Complete process improvements and scaling of thermochemical pilot plant to MW class

14. NuclearEngineeringStudentsPrespppt 14 Office of Nuclear Energy, Science and Technology Advanced Fuel Cycle Initiative ♦The goal is to improve the understanding and performance of nuclear fuel and fuel cycles with respect to safety, waste production, proliferation resistance, and economics to enhance long-term viability of nuclear energy systems. January 2003 Selected topics include: - Concepts for material preparation and fuel production - Inherently safe fuel designs and core response - Understanding life-limiting phenomena for high burnup fuels - High-temperature fuel and material performance - Critical safety and reactor physics data for advanced fuel designs, compositions and enrichments

15. NuclearEngineeringStudentsPrespppt 15 Office of Nuclear Energy, Science and Technology University Programs ♦ Established to help U.S. universities and colleges stay at the forefront of science education and research, the University Program assists universities in the operation of research reactors and in the performance of other educational activities. Direct support is provided to educational institutions in 27 states.

16. NuclearEngineeringStudentsPrespppt 16 Office of Nuclear Energy, Science and Technology The Nuclear Energy Lead Laboratories ♦ DOE seeks to reestablish US leadership in nuclear energy, and has designated the INEEL as the Office of Nuclear Energy's lead laboratory in partnership with ANL- West. ♦The INEEL and ANL-W laboratories will merge to become the Idaho National Laboratory (INL).

17. NuclearEngineeringStudentsPrespppt 17 Office of Nuclear Energy, Science and Technology Idaho and Nuclear Energy ♦ One role the US government has is to fund the development of long-term, high-risk technologies. ♦ Idaho has a proud heritage of nuclear excellence: World’s First Generation of Electricity from Nuclear Power First Materials Test Reactor First Breeder Reactor First Naval Propulsion Reactor 52 Research, Development, Testing, and Demonstration Reactors Worldwide Nuclear Safety Basis (LOFT/RELAP5)

18. NuclearEngineeringStudentsPrespppt 18 Office of Nuclear Energy, Science and Technology The Idaho National Laboratory “First, INEEL will be the central command center for the federal government's Generation IV nuclear systems research.” Second, an “Idaho Advanced Fuel Cycle Technology Initiative will be the focal point for developing and demonstrating separation technologies for treating and reducing spent nuclear fuel and high level waste.” – Spencer Abraham July 15, 2002

19. NuclearEngineeringStudentsPrespppt 19 Office of Nuclear Energy, Science and Technology The Next Generation Nuclear Plant (NGNP) What Does the NGNP Represent? 1.A very promising future option for economic, commercial-scale generation of hydrogen 2.A better, safer, more economic nuclear energy plant 3.The most important project under consideration for the new Idaho National Lab How Will We Get There? 1.DOE leadership and early investment in key materials, fuels, and H 2 production technology 2.Aggressive, well planned collaboration and cost-sharing with international partners and the private sector A single NGNP will be able to produce the H 2 equivalent of 200,000 gallons of gasoline each day

20. NuclearEngineeringStudentsPrespppt 20 Office of Nuclear Energy, Science and Technology The Role of Congress in Our Nuclear Energy Future ♦Congress has shown an increasing appreciation for the important present and future roles of nuclear energy in meeting our energy needs Yucca Mountain vote ♦The comprehensive energy bill under negotiation in Congress contains a provision to build a demonstration next-generation nuclear plant for production of hydrogen ♦The Senate’s Energy and Water Development appropriations bill includes increases for both the next- generation nuclear plant (+$20M) and nuclear production of hydrogen (+$4M) ♦The House’s bill significantly increases funding for the Yucca Mountain project

21. WWW.NUCLEAR.GOV We welcome students to our site because the advancement of nuclear science and engineering education is a priority goal of our office.