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    232 PART | II Smart Supply: Integrating Renewable & Distributed Generation NREL PNNL RAP VER National Renewable Energy Laboratory Pacific Northwest National Laboratory realistic achievable potential variable energy resource REFERENCES [1] R. Hledik, How green is the smart grid? Electricity J. 22 (3) (2009) 29­41. [2] R. Pratt, P. Balducci, C. Gerkensmeyer, S. Katipamula, M.C.W. Kintener-Meyer, T.F. Sanquist, The Smart Grid: An Estimation of the Energy and CO 2 Benefits, Pacific Northwest National Laboratory, Richland, WA, 2010. [3] NREL, Eastern Wind Integration and Transmission Study, Prepared by Enernex Corporation for the National Renewable Energy Laboratory, Knoxville, TN, 2010. [4] NERC, Long­Term Reliability Assessment, North American Electric Reliability Corporation, Princeton, NJ, 2009. [5] H. Holttinen, P. Meibom, B. Parsons, E. Ela, A. Orths, M. O'Malley, Impacts of Large Amounts of Wind Power on Design and Operation of Power Systems, Results of IEA Collaboration, 8th International Workshop on LargeScale Integration of Wind Power into Power Systems as well as on Transmission Networks of Offshore Wind Farms, Bremen, Germany, 2009. [6] M.B. McElroy, X. Lu, et al., Potential for wind­generated electricity in China, Science 325 (5946) (2009) 1378­1380. [7] NREL, Western Wind and Solar Integration Study, Prepared by GE Energy for the National Renewable Energy Laboratory, Schenectady, New York, 2010. [8] P. Denholm, E. Ela, B. Kirby, M. Milligan, The Role of Energy Storage with Renewable Electricity Generation, National Renewable Energy Laboratory, Golden, CO, 2010. [9] A. Vojdani, Smart integration, IEEE Power Energy Mag. 6 (6) (2008) 71­79. [10] P. Cappers, C. Goldman, D. Kathan, Demand response in U.S. electricity markets: empirical evidence, Energy 35 (4) (2010) 1526­1535. [11] FERC, Assessment of Demand Response and Advanced Metering, Federal Energy Regulatory Commission, Washington, DC, 2008. [12] EPRI, The Green Grid: Energy Savings and Carbon Emissions Reductions Enabled by a Smart Grid, Palo Alto, CA, 2008. [13] A. von Meier, Electric Power Systems: A Conceptual Introduction, John Wiley & Sons, Inc., Hoboken, New Jersey, 2006. [14] B. Kirby, M. Milligan, Capacity Requirements to Support Inter­Balancing Area Wind Delivery, National Renewable Energy Laboratory, Golden, CO, 2009. [15] B.J. Kirby, Load Response Fundamentally Matches Power System Reliability Requirements, IEEE Power Engineering Society General Meeting, June 2007. [16] A. Brooks, E. Lu, D. Reicher, C. Spirakis, B. Weihl, Demand dispatch, IEEE Power Energy Mag. 8 (3) (2010) 20­29. [17] W. Kempton, J. Tomic, Vehicle­to­grid power implementation: From stabilizing the grid to supporting large­scale renewable energy, J. Power Sources 144 (1) (2005) 280­294. [18] J. Tomic, W. Kempton, Using fleets of electric­drive vehicles for grid support, J. Power Sources 168 (2) (2007) 459­468. [19] H. Lund, W. Kempton, Integration of renewable energy into the transport and electricity sectors through V2G, Energy Policy 36 (9) (2008) 3578­3587.