Analysis of a Hybrid System for Decentralized Power Generation
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- 英文论文题名:Analysis of a Hybrid System for Decentralized Power Generation
- 论文作者:H.Hinz
- 英文论文作者:H.Hinz ; Faculty of Computer Science and Engineering ; University of Applied Sciences Frankfurt
- 年:2015
- 作者机构:Faculty of Computer Science and Engineering,University of Applied Sciences Frankfurt;
- 英文论文关键词:Decentralized power generation ; lithium-ion battery ; modeling ; photovoltaic
- 会议召开时间:2015-01-01
- 会议录名称:Journal of Clean Energy Technologies Vol.3 No.1
- 语种:英文
- 分类号:TM61
- 学会代码:CDYA
- 学会名称:成都亚昂教育咨询有限公司
- 页数:6
- 文件大小:2069k
- 原文格式:D
摘要
Traditionally a centralized power generation based on fossil fuels is common.To meet the greenhouse targets a transition to low carbon power generation is required.This could be achieved either by nuclear or renewable energy.Due to the concerns regarding nuclear safety and the problematic disposal of long live radioactive waste many countries move towards renewable energies.Thus a change to a decentralized power generation will occur.The objective of this paper is to describe the development of a hybrid system for a decentralized power generation.It is shown that the proposed design of a combined heat and power plant and a photovoltaic array including an electric energy storage device will establish a future oriented technology.A method is introduced which enables the study and optimization of the power management.
Traditionally a centralized power generation based on fossil fuels is common.To meet the greenhouse targets a transition to low carbon power generation is required.This could be achieved either by nuclear or renewable energy.Due to the concerns regarding nuclear safety and the problematic disposal of long live radioactive waste many countries move towards renewable energies.Thus a change to a decentralized power generation will occur.The objective of this paper is to describe the development of a hybrid system for a decentralized power generation.It is shown that the proposed design of a combined heat and power plant and a photovoltaic array including an electric energy storage device will establish a future oriented technology.A method is introduced which enables the study and optimization of the power management.
Traditionally a centralized power generation based on fossil fuels is common.To meet the greenhouse targets a transition to low carbon power generation is required.This could be achieved either by nuclear or renewable energy.Due to the concerns regarding nuclear safety and the problematic disposal of long live radioactive waste many countries move towards renewable energies.Thus a change to a decentralized power generation will occur.The objective of this paper is to describe the development of a hybrid system for a decentralized power generation.It is shown that the proposed design of a combined heat and power plant and a photovoltaic array including an electric energy storage device will establish a future oriented technology.A method is introduced which enables the study and optimization of the power management.
引文
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[2]H.Wirth,“Current facts on photovoltaic in Germany,”Fraunhofer ISE Freiburg,Sep.2013.
[3]C.Naish,I.Mc Cubbin,O.Edberg,and M.Harfoot,“Outlook of energy storage technologies,”Policy Department Economy and Science,Feb.2008.
[4]J.Vasconcelos,S.Ruesteer,X.He,E.Chong,and J.M.Glachant,“Electricity storage:how to facilitate its deployment and operation in the EU,”THINK,7th EU Framework Program,2012.
[5]G.Sarre,“Large scale experiments of grid connected PV systems with energy storage,”presented at the 3rd International Conference on Integration of Renewable and Distributed Energy Resources,Nice,Dec.2008.
[6]Evonik Industries,Collaborative Research Project,Lion Grid Press,Apr.2012.
[7]C.Bendel,D.Nestle,and J.Ringelstein,“Research project DINAR,”ETG Congress Karlsruhe,Oct.2007.
[8]Solar Energy Grid Integration Systems SEGIS,Sandia National Laboratories,Oct.2007.
[9]D.Connolly,“A review of energy storage technologies for the integration of fluctuating renewable energy,”University of Limerick,August 2009.
[10]M.Bragard,N.Soltau,S.Thomas,and R.W.de Doncker,“The balance of renewable sources and user demands in grids:power electronics for modular battery energy storage systems,”IEEE Transactions on Power Electronics,vol.25,issue 12,pp.3049-3056,Dec.2010.
[11]R.W.de Doncker,“Towards a sustainable energy supply–the new landscape of energy technologies,”Panasonic Technical Journal,vol.57,no.4,pp.4-10,Jan.2012.
[12]S.?ztürk,M.Sengül,and N.Y?rükeren,“Modeling and Simulation of the Combined Heat and Power Plant of Real Industrial System,”presented at the 33rd IASTED International Conference on Modeling,Identification and Control Innsbruck,Feb.2002.
[13]C.Schulz,G.R?der,and M.Kurrat,“Virtual power plants with combined heat and power micro-plants,”presented at International Conference on Future Power Systems,Amsterdam,Nov.2005.
[14]D.King,S.Gonzalez,and G.Galbraith,“Performance model for grid-connected photovoltaic inverters,”Sandia Report,Sept.2007.
[15]A.Ellis,“PV system models for system planning and interconnection studies,”Sandia National Laboratories,Oct.2009.
[16]H.Hongwen,R.Xiong,and J.Fan,“Evaluation of lithium-ion battery equivalent circuit models for state of charge estimation by an experimental approach,”Journal Energies,vol.4,no.4,pp.582-598,Mar.2011.
[17]M.Chen and G.Ricon-Mora,“Accurate electrical battery model capable of predicting runtime and I-V performance,”IEEE Transactions on Energy Conversion,vol.21,no.2,pp.504-511,2006.
[18]F.Codeca,S.Savaresi,and V.Manzoni,“The mix estimation algorithm for battery state-of-charge estimator analysis of the sensitivity to measurement errors,”in Proc.48th IEEE Conference on Decision and Control,Shanghai,P.R.China,December 2009,pp.8083-8088.