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December 1, 2003 Bill Parks Office of Electric Transmission and Distribution U.S. Department of Energy

Presentation to the Federal Energy Regulatory Commission. Grid Reliability – Technology Solutions for Today and Tomorrow. December 1, 2003 Bill Parks Office of Electric Transmission and Distribution U.S. Department of Energy. Electricity and Economic Growth. August 14th Blackout

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December 1, 2003 Bill Parks Office of Electric Transmission and Distribution U.S. Department of Energy

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  1. Presentation to the Federal Energy Regulatory Commission Grid Reliability – Technology Solutions for Today and Tomorrow December 1, 2003 Bill Parks Office of Electric Transmission and Distribution U.S. Department of Energy

  2. Electricity and Economic Growth August 14th Blackout By-The-Numbers 2 Canadian Provinces 3 deaths 8 U.S. states 12 airports closed 23 cases of looting in Ottawa 100 power plants 9,266 square miles 61,800 MW of power lost 1.5 million Cleveland residents without water 50 million people $4-6 billion in economic activity lost • “If the energy structure of this country is inadequate or in some way excessively costly, it will undermine economic growth, and is therefore a major issue that must be addressed.” • Alan Greenspan • Chairman, Federal Reserve Board • January 25, 2001

  3. National Reliability Challenges • Prevention – keep problems from occurring • Detection – ready for immediate action • Response – proper ”tool kits” for any contingency • Modernization – “next generation” of grid technologies

  4. Stop reliability problems from occurring in the first place Prevention Technologies for Today • Advanced conductors and tower designs • Modeling and system planning tools • Communications • Training Composite Core Conductors Communications Systems Modeling and Simulation Packages Training Seminars

  5. Improve grid operator readiness for taking action immediately Detection • Monitoring Systems • Frequencies • Voltages • VARs • Phasors • Line Sag • Data Acquisition • Visualization Tools • Communications • Training Voltage and VAR Monitoring ACE Frequency Monitoring Distributed Sensing and Controls Systems Synchronized Phasor Applications

  6. Equip operators with a portfolio of resources comprising the best available tools and techniques Response Technologies for Today • Distributed Generation • Energy Storage Systems • Demand Response • Communications Industrial Gas Turbines Aggregated Water Pumping Loads Smart Thermostat Zinc-Bromine Battery System Reciprocating Engine Gen Sets Microturbines

  7. “Next generation” technologies for meeting future needs Modernization Technologies for Tomorrow • “GridWorks” Technologies • High temperature superconducting devices • Cables • Transformers • Motors • Fault current limiters • “GridWise” Technologies • distributed intelligence • distributed energy • distributed communications and controls • Advanced materials • Power electronics Superconducting Cable Fault current limiter Superconducting Transformer SuperVAR System Advanced Energy Storage Superconducting Flywheel Grid-Friendly Appliance Controller Diamond Devices

  8. Backups

  9. Blackout Example • Rochester International Airport, NY • Two 750-kW engines with absorption chiller provide base-loaded CHP for heating, cooling, and electricity. • Critical loads in the airport were supported by the CHP system and avoided loss of power during the blackout.

  10. Blackout Example Harbec Plastics, Ontario, NY • The facility has an array of 25 ultralow-emission 30-kW Capstone microturbines. • Heat from the array is used for both heating and cooling. • The system operated during the blackout without interruption.

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