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Transmission and Wind Integration June 7, 2010

Transmission and Wind Integration June 7, 2010. Michael Goggin American Wind Energy Association. Outline. Benefits of Wind Energy Transmission Overview Wind Integration Overview. Currently Installed MW by State. Over 500,000 Total Jobs Supported By Wind In DOE report

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Transmission and Wind Integration June 7, 2010

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  1. Transmission and Wind Integration June 7, 2010 Michael Goggin American Wind Energy Association

  2. Outline • Benefits of Wind Energy • Transmission Overview • Wind Integration Overview

  3. Currently Installed MW by State Over 500,000 Total Jobs Supported By Wind In DOE report Fact: in 2008, 35,000 new jobs added

  4. DOE 20% Report Scenario: 46 States Could Have Major Wind Development by 2030

  5. DOE 20% Report Summary: Costs & Benefits Note: All dollar values are in NPV Sources: DOE, 2008 and Hand et al., 2008

  6. Transmission

  7. The Lack of Transmission is a Major Problem • How a Lack of Transmission Hurts Renewables: • Renewable projects cannot connect to the grid • Project output can be curtailed because of inadequate transmission • Cannot capture benefits of geographically diverse resources • Transmission Needed Anyway to Reduce Congestion and Improve Reliability • Consumers losing $10s of billions per year due to transmission congestion and inefficiency • Reliability events cost consumers billions per year • Nearly every source of new generation will need new transmission

  8. Wind in Interconnection Queues by State Washington 8,702 VT 236 Montana 5,694 Maine 1,866 North Dakota 12,602 Minnesota 18,203 NH 496 Oregon 14,336 South Dakota 27,806 Wisconsin 628 Idaho 730 New York 6,990 MA 520 Wyoming 9,582 Michigan 3,242 RI 949 Iowa 17,639 Penn. 2,935 Nevada 4,099 Nebraska 2,690 NJ 704 Indiana 8,225 Ohio 3,810 Illinois 17,086 Utah 1,349 DE 450 WV 818 Colorado 15,904 Kansas 9,433 VA 83 California 11,575 MD 100 Missouri 5,411 Oklahoma 10,187 3,994 Under 1000 MW 1,000 MW-8,000 MW Over 8,000 MW New Mexico 18,007 Arkansas 60 Texas 50,669 Total 297,808 MW AWEA calculation as of March 16, 2010

  9. Economies of Scale for High-Capacity Transmission Source:MISO

  10. Reduced Land Use 765-kV benefits are substantial over 500-kV and 345-kV. • * Cost in 2007 $US, based on average terrain. • ** SIL is a relative capacity measure, thermal capacity is over 4000 MW for 765 kV and ~ 2000 MW for 500 kV. Source: AEP Transmission voltage selection significantly affects performance, cost and the environment.

  11. The Market Failures • Economic benefits of transmission do outweigh costs: • Joint Coordinated System Plan: Would pay for itself in 7 years by reducing power prices • Texas study: Would pay for itself in 3 years • Reliability benefits • Reduction in fuel price volatility impacts • Benefits of connected renewables: environmental, economic development, energy security • Why don’t we just build the transmission? - Obsolete transmission policies, particularly cost allocation policies - In many regions, current cost allocation policy is analogous to charging the next truck entering a congested highway the full cost of adding a new lane

  12. Policy reforms needed to allow new transmission construction to proceed: Planning (pro-active planning) Paying (broad regional cost allocation) Permitting (streamlined siting) AWEA-SEIA white paper at http://www.awea.org/GreenPowerSuperhighways.pdf Policy Reform Needed: The Three P’s

  13. Wind Integration

  14. 2009 U.S. Wind Penetration Source: AWEA data, EIA forms 906 and 920, 2008 data

  15. European Wind Energy Penetration, 2008 Source: EWEA 2007 and Eurelectic 2006

  16. Power System Operations:Background • Electricity supply and demand must match at all times • Grid operators accomplish this by increasing and decreasing the output of flexible generators, like hydroelectric and natural gas power plants • Electricity demand is highly variable; forecasts are used, but there is still variability and uncertainty • Electricity supply is also variable and uncertain • As a result, grid operators hold generation in reserve to accommodate aggregate variability: • Regulation reserves • Load-following reserves • Contingency reserves • Reserves can be spinning or non-spinning

  17. The Flexibility Supply Curve Source: NREL

  18. The Distance Element of Wind’s Variability Correlation in plant output as a function of time and distance Source: NREL

  19. The Time Element of Wind’s Variability [1]http://www.uwig.org/Wind_Generation_Impact_on_Ancillary_Services_-_GE_Study.zip [2]http://www.uwig.org/CEC-500-2007-081-APB.pdf [3]http://www.uwig.org/nyserdaphase2appendices.pdf

  20. Wind Integration Costs Source: NREL

  21. Lessons Learned from Wind Integration Studies • Wind forecasting can significantly reduce integration costs by reducing uncertainty • Geographically diverse wind resources tend to be less variable • Wind resources spread over larger areas are less variable – one of the reasons why transmission is important • Diverse wind has very little variability on the minute-to-minute time scale • Wind is easier to integrate on more flexible power systems • Market/system operation reforms can significantly reduce wind integration costs • A robust transmission grid can significantly reduce integration costs • Integrating wind is a cost issue, not a reliability issue (thinking about “limits” or renewable thresholds is inaccurate) • Storage is not needed, but can help

  22. Solutions: Transmission is Critical • NERC IVGTF: “Transmission expansion, including greater connectivity between balancing areas, and coordination on a broader regional basis, is a tool which can aggregate variable generators leading to the reduction of overall variability. Sufficient transmission capacity serves to blend and smooth the output of individual variable and conventional generation plants across a broader geographical region. Large balancing areas or participation in wider-area balancing management may be needed to enable high levels of variable resources.” (p. 43)

  23. Shorten Power Plant Dispatch Intervals • NERC: “More frequent and shorter scheduling intervals for energy transactions may assist in the large-scale integration of variable generation.” (p. 61) • In much of the U.S., power plants are scheduled to operate for hourly intervals, and expensive reserves are used to accommodate intra-hour variability • Using 5- or 10-minute scheduling intervals accommodates intra-hour variability without reserves • Studies show significant savings from moving to 5- or 10-minute intervals instead of hourly: • Bonneville Power: 80% reduction in wind integration costs • Avista: 40-60% reduction in wind integration costs

  24. Flexibility through markets • NERC: “Additional sources of system flexibility include the operation of structured markets, shorter scheduling intervals, demand-side management, reservoir hydro systems, gas storage and energy storage.” (p. 48) • Ancillary services markets provide incentives for generators, demand response, and other flexible resources to offer their services to the grid • Markets ensure that lowest-cost resources provide needed flexibility services

  25. Larger Balancing Areas • Allow excess power in one region to be shared with neighboring regions • Enable diverse wind resources spread over a larger area to be connected to the same grid, canceling out their variability • Create cost savings • Midwest ISO estimates savings from consolidating its 26 balancing areas into one are 3.7 to 6.7 times greater than the costs • Savings are large even on power systems without wind energy • Consolidation can be done physically or virtually

  26. Grid Balkanization Impairs Wind Integration

  27. Improve Use of Wind Forecasting • NERC: “Forecasting is one of the key tools needed to increase the operator’s awareness of wind plant output uncertainty and assist the operator in managing this uncertainty.” (p. 55) • Largest opportunities for improvement: • Better integrating forecasts into power system operations • Faster updating short-term models, more data

  28. Questions?Michael Gogginmgoggin@awea.org202-383-2531

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