Low Carbon Economic Dispatch for Multi-energy Distribution Network with Compressed Air Energy Storage System as Energy Hub
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- 英文论文题名:Low Carbon Economic Dispatch for Multi-energy Distribution Network with Compressed Air Energy Storage System as Energy Hub
- 论文作者:Binhui Liu ; Qiyou Lin ; Tianwen Zheng ; Laijun Chen ; Shengwei Mei
- 英文论文作者:Binhui Liu ; Qiyou Lin ; Tianwen Zheng ; Laijun Chen ; Shengwei Mei ; Department of Electrical Engineering ; Tsinghua University ; State Grid Wuhu Electric Power Company
- 年:2017
- 作者机构:Department of Electrical Engineering,Tsinghua University;State Grid Wuhu Electric Power Company;
- 英文论文关键词:Multi-energy distribution network ; low carbon economic dispatch ; compressed air energy storage system ; energy hub ; power distribution network ; district heating network
- 会议召开时间:2017-07-26
- 会议录名称:第36届中国控制会议论文集(B)
- 英文会议录名称:Proceedings of the 36th Chinese Control Conference(B)
- 语种:英文
- 分类号:TM73
- 学会代码:KZLL
- 会议名称:第36届中国控制会议
- 会议地点:中国辽宁大连
- 主办单位:中国自动化学会控制理论专业委员会
- 学会名称:中国自动化学会控制理论专业委员会
- 页数:6
- 文件大小:376k
- 原文格式:D
- 会议级别:全国
摘要
Nowadays,energy crisis and environmental pollution have made utilize multiple energy in an integrated way a trend of future energy system development.The multi-energy distribution network connected via energy hubs is one of the promising solutions.In this paper,an energy hub model of compressed air energy storage system is established for the integration in the multi-energy distribution network.Aiming at reducing the whole operation and carbon cost,a low carbon economic dispatch model for multi-energy distribution network is constructed and verified on a coupled system with a 13-bus power distribution network and a 13-node district heating network,which successfully demonstrated the effectiveness of the proposed model in terms of reducing the total cost.This model can be generally extended to more complicated multi-energy networks.
Nowadays,energy crisis and environmental pollution have made utilize multiple energy in an integrated way a trend of future energy system development.The multi-energy distribution network connected via energy hubs is one of the promising solutions.In this paper,an energy hub model of compressed air energy storage system is established for the integration in the multi-energy distribution network.Aiming at reducing the whole operation and carbon cost,a low carbon economic dispatch model for multi-energy distribution network is constructed and verified on a coupled system with a 13-bus power distribution network and a 13-node district heating network,which successfully demonstrated the effectiveness of the proposed model in terms of reducing the total cost.This model can be generally extended to more complicated multi-energy networks.
Nowadays,energy crisis and environmental pollution have made utilize multiple energy in an integrated way a trend of future energy system development.The multi-energy distribution network connected via energy hubs is one of the promising solutions.In this paper,an energy hub model of compressed air energy storage system is established for the integration in the multi-energy distribution network.Aiming at reducing the whole operation and carbon cost,a low carbon economic dispatch model for multi-energy distribution network is constructed and verified on a coupled system with a 13-bus power distribution network and a 13-node district heating network,which successfully demonstrated the effectiveness of the proposed model in terms of reducing the total cost.This model can be generally extended to more complicated multi-energy networks.
引文
[1]J.Rifkin,The third industrial revolution:how lateral power is transforming energy,the economy and the world.Berlin:Palgrave Macmillan,2011:27-68.
[2]S.Mei,R.Li,and X Xue,Paving the way to smart micro energy internet:concepts,design principles,and engineering practices,preprint ar Xiv:1612.09500,2016 Dec 30.
[3]J.Li,J.Fang,and Q.Zeng,Optimal operation of the integrated electrical and heating systems to accommodate the intermittent renewable sources,Applied Energy,167:244-254,2016.
[4]Z.Li,W.Wu,and M.Shahidehpour,Combined heat and power dispatch considering pipeline energy storage of district heating network,IEEE Trans.on Sustainable Energy,7(1):12-22,2016.
[5]X.Liu,P.Mancarella,Modelling,assessment and Sankey diagrams of integrated electricity-heat-gas networks in multi-vector district energy systems,Applied Energy,167:336-352,2016.
[6]X.Zhang,G.Karady,and S.Ariaratnam,Optimal allocation of CHP-based distributed generation on urban energy distribution networks,IEEE Trans.on Sustainable Energy,5(1):246-253,2014.
[7]H.Daneshi,A.Srivastava,and A.Daneshi,Generation scheduling with integration of wind power and compressed air energy storage,IEEE PES Transmission and Distribution Conference and Exposition,3(1):19-22,2010.
[8]C.Wang,L.Chen,and F.Liu,Thermal-wind-storage joint operation of power system considering pumped storage and distributed compressed air energy storage,Power Systems Computation Conference,31:1-7,2014.
[9]X.Xue,B.Liu,and Y.Wang,Micro energy network design for community based on compressed air energy storage,Proceedings of the CSEE,36(12):3306-3313,2016.
[10]T.Hwang,M.Choi,and S.Kang,Design of application-level reference models for micro energy grid in IT perspective,International Conference on Computing and Networking Technology,2012:180-183.
[11]H.Fan,Q Chen,and Q Liu,Optimal scheduling for energy hub in power markets,IEEE Innovative Smart Grid Technologies–Asia,2016:127-131.
[12]M.Geidl,Integrated modeling and optimization of multi-carrier energy systems,Ph.D.dissertation,Dept.Electrical Engineering.,Swiss Federal Institute of Technology,Zurich,2007.
[13]Z.Wang,B.Chen,and J.Wang,Coordinated energy management of networked microgrids in distribution systems,IEEE Trans.on Smart Grid,6(1):45-53,2015.
[14]R.Li,L.Chen,and T.Yuan,Optimal dispatch of zero-carbon-emission micro Energy Internet integrated with non-supplementary fired compressed air energy storage system,Journal of Modern Power Systems and Clean Energy,4(4):566-580,2016.
[2]S.Mei,R.Li,and X Xue,Paving the way to smart micro energy internet:concepts,design principles,and engineering practices,preprint ar Xiv:1612.09500,2016 Dec 30.
[3]J.Li,J.Fang,and Q.Zeng,Optimal operation of the integrated electrical and heating systems to accommodate the intermittent renewable sources,Applied Energy,167:244-254,2016.
[4]Z.Li,W.Wu,and M.Shahidehpour,Combined heat and power dispatch considering pipeline energy storage of district heating network,IEEE Trans.on Sustainable Energy,7(1):12-22,2016.
[5]X.Liu,P.Mancarella,Modelling,assessment and Sankey diagrams of integrated electricity-heat-gas networks in multi-vector district energy systems,Applied Energy,167:336-352,2016.
[6]X.Zhang,G.Karady,and S.Ariaratnam,Optimal allocation of CHP-based distributed generation on urban energy distribution networks,IEEE Trans.on Sustainable Energy,5(1):246-253,2014.
[7]H.Daneshi,A.Srivastava,and A.Daneshi,Generation scheduling with integration of wind power and compressed air energy storage,IEEE PES Transmission and Distribution Conference and Exposition,3(1):19-22,2010.
[8]C.Wang,L.Chen,and F.Liu,Thermal-wind-storage joint operation of power system considering pumped storage and distributed compressed air energy storage,Power Systems Computation Conference,31:1-7,2014.
[9]X.Xue,B.Liu,and Y.Wang,Micro energy network design for community based on compressed air energy storage,Proceedings of the CSEE,36(12):3306-3313,2016.
[10]T.Hwang,M.Choi,and S.Kang,Design of application-level reference models for micro energy grid in IT perspective,International Conference on Computing and Networking Technology,2012:180-183.
[11]H.Fan,Q Chen,and Q Liu,Optimal scheduling for energy hub in power markets,IEEE Innovative Smart Grid Technologies–Asia,2016:127-131.
[12]M.Geidl,Integrated modeling and optimization of multi-carrier energy systems,Ph.D.dissertation,Dept.Electrical Engineering.,Swiss Federal Institute of Technology,Zurich,2007.
[13]Z.Wang,B.Chen,and J.Wang,Coordinated energy management of networked microgrids in distribution systems,IEEE Trans.on Smart Grid,6(1):45-53,2015.
[14]R.Li,L.Chen,and T.Yuan,Optimal dispatch of zero-carbon-emission micro Energy Internet integrated with non-supplementary fired compressed air energy storage system,Journal of Modern Power Systems and Clean Energy,4(4):566-580,2016.