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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 608-609Adequacy Evaluation of Wind-PV-ES Hybrid Power...

Adequacy Evaluation of Wind-PV-ES Hybrid Power System

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Abstract:

Renewable energy resources such as wind, wave, solar and biomass are becoming more important, and Wind-PV-ES hybrid power system is a promising and efficient utilization of renewable energy. Based on the sequential Monte-Carlo simulation approach, an evaluation model of Wind-PV-ES hybrid generation system is built, and storage time series model is optimized. Lastly, the effectiveness and feasibility of the proposed model is verified by a practical example, and the system impacts of PV penetration level, energy storage capacity and rated output power are illustrated.

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Progress in Renewable and Sustainable Energy

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Periodical:

Advanced Materials Research (Volumes 608-609)

Pages:

790-795

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.608-609.790

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Online since:

December 2012

Authors:

Dong Lei, Lv Qin, Pu Tianjiao, Zhou Haiming

Keywords:

Adequacy Evaluation, New Indices, Storage Time Series, Wind-PV-ES Hybrid Power System

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© 2013 Trans Tech Publications Ltd. All Rights Reserved

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[1] HUANG Hao，ZHANG Pei．An Overview of US Renewable Energy Development[J]．Power System Technology，2011，35(7)：48-53．

[2] Yi DING，Qiuwei WU．Towards a European Renewable-based Energy System Enabled by Smart Grid：Status and Prospects[J]．Automation of Electric Power Systems，2011，35(22): 12-17．

[3] WANG Haohuai，TANG Yong，HOU Junxian，etal．Composition Modeling and Equivalence of an Integrated Power Generation System of Wind, Photovoltaic and Energy Storage Unit [J]．Proceedings of the CSEE，2011，31(34)：1-8．

[4] Wang P，Billinton R．Time-sequential simulation technique for rural distribution system reliability cost worth evaluation including wind generation as alternative supply[J]．IEEE Proceedings of Generation，Transmission and Distribution，2001，148(4)：355-360．

DOI: 10.1049/ip-gtd:20010406

[5] Billinton R，Jonnavithula A．Application of sequential Monte Carlo simulation to evaluation of distributions of composite system indices[J]．IEEE Proceedings of Generation, Transmission and Distribution，1997，144(2)：87-90．

DOI: 10.1049/ip-gtd:19970929

[6] Liu Wei，Zhao Yuan，Zhou Jiaqi，et al．Reliability assessment of power generation transmission and distribution systems containing wind farms[J]．Power System Technology, 2008，32(13)：69-74．

[7] ZHANG Shuo，LI Geng-yin，ZHOU Ming．Reliability Assessment of Generation and Transmission Systems Integrated With Wind Farms [J]．Proceedings of the CSEE，2010, 30(7)：8-14．

[8] Jeongje Park，Wu Liang，Roy Billinton，etal．A Probabilistic Reliability Evaluation of A Power System Including Solar/Photovoltaic Cell Generator [C]．2009 IEEE Power and Energy Society General Meeting，2009：1-6．

DOI: 10.1109/pes.2009.5275722

[9] Billinton R，Bagen．A sequential simulation method for the generating capacity adequacy evaluation of small stand-alone wind energy conversion systems[C] //Electrical and Computer Engineering．Canadian：IEEE，2002：72- 77．

DOI: 10.1109/ccece.2002.1015177

[10] Bagen，Billinton R． Impacts of energy storage on power system reliability performance[C] // Electrical and Computer Engineering．Canadian：IEEE，2005：494-497．

DOI: 10.1109/ccece.2005.1556978

[11] Billinton R，Wangdee W．Reliability-based transaction reinforcement planning associated with large-scale wind farms[J]．IEEE Trans on Power Systems，2007，22(1)：34-41．

DOI: 10.1109/tpwrs.2006.889126

[12] Giorsetto P，Utsurogi K F．Development of a new procedure for reliability modeling of wind turbine generators[J]．IEEE Transactions on Power Systems，1983,PAS-102(1)：134-143．

DOI: 10.1109/tpas.1983.318006

[13] NREL．The Optimization Model for Distributed Power．http：/www．nrel．gov/homer，2005．

[14] Mukund R，Patel．Wind and Solar Power Systems[M]．Boca Raton：CRC press，1999．

[15] Ruey-Hsun Liang，Jian-Hao Liao．A Fuzzy-Optimization Approach for Generation Scheduling With Wind and Solar Energy Systems[J]．IEEETrans on Power Syst，2007，22(4)：1665-1674．

DOI: 10.1109/tpwrs.2007.907527