1 / 25

Energy in the U.S. - Why Wind?

Energy in the U.S. - Why Wind?. Financing Wind Power: The Future of Energy Institute for Professional and Executive Development Scottsdale, Arizona May 7, 2008. Overview. Market Progress Market Drivers. Market Progress – Installed Wind Capacity. U.S.: 1999 – 2,500 MW

Download Presentation

Energy in the U.S. - Why Wind?

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Energy in the U.S. - Why Wind? Financing Wind Power: The Future of Energy Institute for Professional and Executive Development Scottsdale, Arizona May 7, 2008

  2. Overview • Market Progress • Market Drivers

  3. Market Progress – Installed Wind Capacity U.S.: 1999 – 2,500 MW 2007 – 16,800 MW 5,244 MW installed in 2007 Source: NREL, AWEA, Global Wind Energy Council

  4. Market Progress – Installed Wind Capacity Worldwide: 1999 – 13,600 MW 2007 – 94,123 MW 20,076 MW installed in 2007 Source: Global Wind Energy Council

  5. Market Progress - $ 2007 Value of Global Wind Capacity additions: $37 Billion Source: Global Wind Energy Council

  6. Market Progress – U.S. Projections • Projections vary: - Many consider 45,000 MW of installed capacity by 2015 to be realistic - Other estimates project up to 100,000 MW by 2015 • Dollar investment projected to range from $81 Billion to $180 Billion over that range

  7. Drivers for Growth of Wind Capacity • Technology advances • Cost competitiveness • Fossil fuel cost increases • Environmental issues/climate change • Renewable Portfolio Standards (RPSs)

  8. Drivers for Growth of Wind Capacity - 2 • Production tax credit • Economic development • Energy demand growth • Energy Security

  9. Technology Advances • Larger wind turbines developed and proven 1995: 500 kW 2007: 2.5 - 3 MW • With larger turbines, greater efficiency - Improved materials - Improved gearboxes - Larger blades - Less overall land area needed to produce more MW

  10. Technology Advances - 2 • Greater efficiency results in lower cost of generation 1990: average cost of 7.5 to 11 cents/kWh 2006: average cost of 4 to 6 cents/kWh for new capacity

  11. Cost Competitiveness • Wind vs. other sources of generation ($/MWh) Coal 25 – 45 Natural gas 50 – 55 Oil 100 Solar 200 – 500 Wind 40 – 70 (depending on wind resource)

  12. Cost Competitiveness • Natural gas prices doubled from 2000 - 2005

  13. Environmental Considerations/Climate Change • No emissions from wind • Clean Air Act requirements tightly regulate emissions from fossil fuel-fired plants – S02, PM, NOx, Mercury • Climate change policies are developing, focusing on carbon emissions – Cal., RGGI, Kyoto Protocol • Wind uses no fossil fuel – therefore no impacts from fuel cycle • No water intake or discharge – at the same time that CWA requirements are tightening for fossil plants

  14. RPSs • RPS is a policy which either requires or encourages that utilities supply a stated percentage of their power from renewable resources

  15. States with RPSs Source: NREL

  16. RPSs • 25 States and DC have RPSs in one form or another • Percentage goals vary from 2% (Iowa) to 40% (Maine) with varying target years • Some have fixed requirements, others are aspirational • Three states, Illinois, Virginia and Vermont, have non-binding goals • National RPS is under consideration in Congress

  17. RPSs/Renewable Energy Credits • RPSs stimulate the development of markets for RECs • A REC is a credit equal to a unit of production of renewable energy (e.g., a MWh) • RECS may be used to satisfy RPS requirements, instead of actual generation

  18. RPSs/Renewable Energy Credits - 2 • RECs have economic value that can approach the avoided cost of generation • Prices for RECS vary geographically, and there is not yet an active market in many areas - in some places, e.g., MA and CT, can be in the $40 – 50/MW range • REC sales can provide a revenue stream to support wind energy projects

  19. Production Tax Credit • Federal income tax credit for production of energy by wind and other renewable resources • Currently 1.9 cents/kWh, for 10 years • Provides significant economic support for wind energy projects • Much more about PTC later • Short term renewals have produced stop/start development cycles

  20. Economic Development • Revenue source for host communities • Revenue source for landowners, especially rural • Spin-off local revenues from construction • Construction jobs • A few good local jobs during operation

  21. Energy Demand Growth • Electric energy demand in the US continues to increase • Most projections are for continued increase • New generation is needed to meet increased demand - although wind is not a base load resource, it contributes to meeting load

  22. Energy Security • Foreign oil • Foreign policy Wind uses no oil

  23. Why Wind? It’s the $, stupid

  24. For more information contact: Ruth E. Leistensnider, Esq. Nixon Peabody LLP Omni Plaza Albany, New York 12207 518-427-2655 rleistensnider@nixonpeabody.com www.nixonpeabody.com

More Related