參考文獻(xiàn)
[1] SIGRIST L, EGIDO I, MIGUELEZ E L, et al.Sizing and Controller Setting of Ultracapacitors for Frequency Stability Enhancement of Small Isolated Power Systems[J]. IEEE Transactions on Power Systems,2015,30(4):2130-2138.
[2] RESCHA G, HELD A, FABER T, et al. Potentials and prospects for renewable energies at global scale[J]. Energy Policy,2008,36(11):4048-4056.
[3] STRBAC G, SHAKOOR A, BLACK M, et al.Impact of wind generation on the operation and development of the UK electricity systems[J]. Electric Power Systems Research,2007,77(9):1214-1227.
[4] DOHERTY R, O’MALLEY M.A New Approach to Quantify Reserve Demand in Systems with Significant Installed Wind Capacity[J]. IEEE Transactions on Power Systems,2005,20(2):587-595.
[5] FARHANGI H.The path of the smart grid[J]. IEEE Power & Energy Magazine,2010,8(1):18-28.
[6] AMIN S M, WOLLENBERG B F.Toward a smart grid: power delivery for the 21st century[J]. IEEE Power & Energy Magazine,2005,3(5):34-41.
[7] MOSLEHI K, KUMAR R.A reliability perspective of the smart grid[J]. IEEE Transactions on Smart Grid,2010,1(1):57-64.
[8] GARULLI A, PAOLETTI S, VICINO A.Models and Techniques for Electric Load Forecasting in the Presence of Demand Response[J]. IEEE Transactions on Control Systems Technology,2015,23(3):1087-1097.
[9] VU T L, AYU A A, DHUPIA J S, et al.Power Management for Electric Tugboats Through Operating Load Estimation[J]. IEEE Transactions on Control Systems Technology,2015,23(6):2375-2382.
[10] THEKKEMADOM V, MOORE J D, SULTE R P, et al. Load estimation issues in real-time power system state estimation[C]//IEEE Power and Energy Society General Meeting,2012:1-4.
[11] GHORBANI N, BABAEI E. Exchange market algorithm for economic load dispatch[J]. International Journal of Electrical Power and Energy Systems,2016,75:19-27.
[12] RAN X H, MIAO S H, JIANG Z, et al. A framework for uncertainty quantification and economic dispatch model with wind-solar energy[J]. International Journal of Electrical Power and Energy Systems,2015,73:23-33.
[13] LAI X W, XIE L, XIA Q, et al. Decentralized Multi-Area Economic Dispatch via Dynamic Multiplier-Based Lagrangian Relaxation[J]. IEEE Transactions on Power Systems,2015,30(6):3225-3233.
[14] PALENSKY P, DIETRICH D. Demand Side Management:Demand Response, Intelligent Energy Systems, and Smart Loads[J]. IEEE Transactions on Industrial Informatics,2011,7(3):381-388.
[15] RAHIMI F, IPAKCHI A. Demand response as a market resource under the smart grid paradigm[J]. IEEE Transactions on Smart Grid,2010,1(1):82-88.
[16] KIM J H, SHCHERBAKOVA A. Common failures of demand response[J]. Energy,2011,36(2):873-880.
[17] KIRSCHEN D S. Demand-side view of electricity markets [J]. IEEE Transactions on Power Systems,2003,18(2):520-527.
[18] BRADLEY P, LEACH M, TORRITI J. A review of the costs and benefits of demand response for electricity in the UK[J]. Energy Policy,2013,52(3):312-327.
[19] WARREN P. A review of demand-side managementpolicy in the UK[J]. Renewable & Sustainable Energy Review,2014,29(7):941-951.
[20] PAULUS M, BORGGREFE F. The potential of demandside management in energy-intensive industries for electricity markets in Germany[J]. Applied Energy,2011,88(2):432-441.
[21] KLOBASA M. Analysis of demand response and wind integration in Germany’s electricity market[J]. IET Renewable Power Generation,2010,4(1):55-63.
[22] CAPPERS P, GOLDMAN C, KATHAN D. Demandresponse in US electricity markets:Empirical evidence[J].Energy,2010,35(4):1526-1535.
[23] ZARNIKAU J, LANDRETH G, HALLETT I, et al. Industrial customer response to wholesale prices in the restructured Texas electricity market[J]. Energy,2007,32(9):1715-1723.
[24] KANG L J, LIANG W P. Analysis on primary frequency regulation function tests for thermal power units[J]. Advanced Materials Research,2014,986-987:1187-1190.
[25] LIANG Z Y, LI S S. Research on influence factor of primary frequency regulation performance for thermal power plant[J]. Applied Mechanics and Materials,2013,448-453:2040-2044.
[26] ZHANG J B, LI H, XIE H P. Analysis and improvement on primary frequency regulation control system of hydro generator units[J]. Journal of Hydroelectric Engineering,2009,28(6):206-213.
[27] LIU H, HU Z C, SONG Y H, et al. Vehicle-to-Grid Control for Supplementary Frequency Regulation Considering Charging Demands[J]. IEEE Transactions on Power Systems,2015,30(6):3110-3119.
[28] ZHONG J, HE L N, LI C B, et al. Coordinatedcontrol for large-scale EV charging facilities and energy storage devices participating in frequency regulation[J]. Applied Energy,2014,123(12):253-262.
[29] MONGKOLTANATAS J, RIU D, LEPIVERT X. Energy storage design for primary frequency control for islanding micro grid[J]. 38th Annual Conference on IEEE Industrial Electronics Society,2012,2(1):5643-5649.
[30] JIANG H, LIN J, SONG Y H, et al. Demand side frequency control scheme in an isolated wind power system for industrial aluminum smelting production[J]. IEEE Transactions on Power Systems,2014,29(2):844-853.
[31] MOLINA-GARCIA A, BOUFFARD F, KIRSCHEN D S. Decentralized Demand-Side Contribution to Primary Frequency Control[J]. IEEE Transactions on Power Systems,2011,26(1):411-419.
[32] DOUGLASS P J, GARCIA-VALLE R, NYENG P, et al. Smart Demand for Frequency Regulation:Experimental Results[J]. IEEE Transactions on Smart Grid,2013,4(3):1713-1720.
[33] LU N, HAMMERSTORM D J. Design considerations for frequency responsive grid friendly appliances[C]//Proceedings of the IEEE Power Engineering Society Transmission and Distribution Conference,2006:647-652.
[34] U.S.Energy Information Administration. Office of energy consumption and efficiency statistics[R]. Form EIA-457A/G Residential Energy Consumption Survey,2009.
[35] ARTECONI A, HEWITT N J, POLONARA F. State of the art of thermal storage for demand-side management[J]. Applied Energy,2012,93(5):371-389.
[36] MARCUS M C. Demand as frequency controlled reserve analysis of technology and potentials student project report[R]. Copenhagen: Technical University of Denmark,2006.
[37] WARREN P. A review of demand-side management policy in the UK[J]. Renewable & Sustainable Energy Reviews,2014,29(7):941-951.
[38] KIRBY B. Spinning reserve from responsive loads[J]. Office of Scientific & Technical Information Technical Reports,2003,15(3):219-227.
[39] XU Z Z, ZENG M. Analysis on Electricity Market Development in US and Its Inspiration to Electricity Market Construction in China[J]. Power System Technology,2011,35(6):161-166.
[40] WANG J, REDONDO N E, GALIANA F D. Demand-Side Reserve Offers in Joint Energy/Reserve Electricity Markets[J]. IEEE Transactions on Power Systems,2003,18(4):1300-1306.
[41] YANG D, CHEN Y N. Demand Response and Market Performance in Power Economics[C]//IEEE Power and Energy Society General Meeting,2009:1-6.
[42] PAPAGIANNIS G, DAGOUMAS A, LETTAS N, et al. Economic and environmental impacts from theimplementation of an intelligent demand side management system at the European level[J]. Energy Policy,2008,36(1):163-180.
[43] WALAWALKAR R, BLUMSACK S, APT J, et al. An economic welfare analysis of demand response in the PJM electricity market[J]. Energy Policy,2008,36(10):3692-3702.
[44] ZHANG N, OCHOA L F, KIRSCHEN D S. Investigating the Impact of Demand Side Management on Residential Customers[C]//IEEE PES International Conference and Exhibition on Innovative Smart Grid Technologies,2011:1-6.
[45] ALMEIDA P M R, SOARES F J , LOPES J A P. Electric vehicles contribution for frequency control with inertial emulation[J]. Electric Power Systems Research,2015,127:141-150.
[46] KOOK K S, SON H J, SONG Y J. The Potential of V2G for Frequency Control in Power Systems for Applications in Korea[C]//IEEE Power and Energy Society General Meeting,2012:1-4.
[47] KIKUCHI H, ASANO H, BANDO S. Load frequency control by commercial air conditioners power consumption control with large penetration of renewable energy generation[J]. IEEJ Transactions on Power and Energy,2015,135(4):233-240.
[48] PEDRASA M A A, ORO M M, REYES N C R, et al. Demonstration of Direct Load Control of Air Conditioners in High Density Residential Buildings[C]//Innovative Smart Grid Technologies-Asia,2014:400-405.
[49] LAKSHMANAN V, MARINELLI M, KOSEK A M, et al. Domestic refrigerators temperature prediction strategy for the evaluation of the expected power consumption[J]. Innovative Smart Grid Technologies Europe,2014,7(1):1-5.
[50] O'CONNELL N, MADSEN H, PINSON P, et al. Regulating power from supermarket refrigeration[C]//IEEE PES Innovative Smart Grid Technologies Conference Europe,2015:1-6.
[51] RAUTIAINEN A, REPO S, JARVENTAUSTA P.Using frequency dependent electric space heating loads to manage frequency disturbances in power systems[C]//IEEE Bucharest Power Tech,2009:1-6.
[52] PAPAEFTHYMIOU G, HASCHE B, NABE C .Potential of Heat Pumps for Demand Side Management and Wind Power Integration in the German Electricity Market[J]. IEEE Transactions on Sustainable Energy,2012,3(4):636-642.
[53] RAZIEI S A, MOHSENIAN-RAD H. Optimal Demand Response Capacity of Automatic Lighting Control[J].Innovative Smart Grid Technologies,2013,19(2):1-6.
[54] ATIKOL U. A simple peak shifting DSM(demandside management)strategy for residential water heaters[J]. Energy,2013,62(6):435-440.
[55] SIEBERT L C, FERREIRA L R, YAMAKAWA E K, et al. Centralized and decentralized approaches to demand response using smart plugs[C]//IEEE/PES Transmission & Distribution Conference & Exposition,2014:1-5.
[56] YAAGOUBI N, MOUFTAH H T. User-aware game theoretic approach for demand management[J]. IEEE Transactions on Smart Grid,2015,6(2):716-725.
[57] LU N, ZHANG Z. Design considerations of a centralized load controller using thermostatically controlled appliances for continuous regulation reserves[J]. IEEE Transactions on Smart Grid,2013,4(2):914-921.
[58] BORSCHE T, MARKOVIC U, ANDERSSON G. A new algorithm for primary frequency control with cooling appliances[J]. Computer Science-Research and Development,2016,31(1-2):89-95.
[59] ETO J H. Demand response spinning reserve demonstration[C]//Lawrence Berkeley National Laboratory,2007.
[60] CHASSIN D P, DONNELLY M K, DAGLE J E. Electrical power distribution control methods, electrical energy demand monitoring methods, and power management devices:United States, 7149605[P].2006-12-12.
[61] TINDEMANS S H, TROVATO V, STRBAC G. Decentralized Control of Thermostatic Loads for Flexible Demand Response[J].IEEE Transactions on Control Systems Technology,2015,23(5):1685-1700.
[62] RIVERSO S, SARZO F, FERRARI-TRECATE G. Voltage and frequency control of islanded microgrids:A plug-and-play approach[C]//IEEE International Conference on Smart Grid Communications,2014:73-78.
[63] DOUGLASS P J, VALLE R G, NYENG P, et al. Demand asfrequency controlled reserve:implementation and practical demonstration[C]//IEEE PES International Conference and Exhibition on Innovative Smart Grid Technologies,2012:1-7.
[64] LOPEZ A, MONTANO J C, CASTILLA M, et al. Power system frequency measurement under nonstationary situations[J]. IEEE Transactions on Power Delivery,2008,23(2):562-567.
[65] SALCIC Z, NGUANG S K, WU Y Z. An improved taylor method for frequency measurement in power systems[J]. IEEE Transactions on Instrumentation and Measurement,2009,58(9):3288-3294.
[66] SONDHI S, HOTE Y V. Fractional order PID controller for load frequency control[J]. Energy Conversion and Management,2014,85(9):343-353.
[67] MAK S, RADFORD D. Communication system requirements for implementation of a large scale demand side management and distribution automation[J]. IEEE Transactions on Power Delivery,1996,11(2):683-689.
[68] DEHGHANPOUR K, AFSHARNIA S. Electrical demand side contribution to frequency control in power systems:A review on technical aspects[J]. Renewable and Sustainable Energy Reviews,2015,41:1267-1276.