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电网技术  2015 

基于全能流模型的区域多能源系统若干问题探讨

DOI: 10.13335/j.1000-3673.pst.2015.08.025, PP. 2230-2237

Keywords: 多能源系统,全能流模型,建模,优化,评估

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Abstract:

传统能源研究对不同能源系统独立考虑,缺乏整体的系统分析,为提高能源系统使用效率、增强能源之间的协同效应,文章将多能源系统中冷、热、电等不同品质与品位的能量等同看待,对区域多能源系统的建模、优化和评估方法进行综述与分析。通过构建全能流模型,系统地描述多能源系统内各环节能量流通的特征,对能量转换、分配、存储等环节进行建模;从静态、动态的角度对能源进行优化管理;通过构建统一的度量标尺对技术性、经济性、高效性、可靠性等方面进行评估,对整体和部分环节能效利用进行综合分析。区域多能源系统的构建与分析符合能源梯级利用的思想,有利于国民经济的发展。最后,结合当今能源现状,对新时代的多能源系统研究提出一些思考与展望。

References

[1]  Rifkin J.The third industrial revolution[J].Engineering &Technology,2008,3(7):26-27.
[2]  罗艳玲.区域能源系统的优化设计[D].武汉:武汉理工大学,2012.
[3]  Congress of United States.Energy independence and security ACT of 2007[EB/OL].2004-08
[4]  . http://www.gpo.gov/fdsys/pkg/BILLS-110hr6enr/pdf/BILLS-110hr6enr.pdf.
[5]  Natural Resources Canada.Integrated community energy solutions:a roadmap for action[R/OL].2009-09
[6]  .http://oee.nrcan. gc.ca/sites/oee.nrcan.gc.ca/files/pdf/publications/cem-cme/ices_e.pdf.
[7]  Government of Canada.Combining our energies-integrated energy systems for Canadian communities[R/OL].2009-06
[8]  .http://publications.gc.ca/collections/collection_2009/parl/xc49-402-1-1-01E.pdf.
[9]  European Commission.Energy Roadmap 2050[EB/OL].2012-04
[10]  .http://ec.europa.eu/energy/energy2020/roadmap/ index_en.htm.
[11]  Ministry of Economy,Trade and Industry.The strategic energy plan of Japan[EB/OL].2010-06
[12]  .http://www.meti.go.jp/english/press/data/pdf/20100618_08a.pdf.
[13]  Lasseter R H.Smart distribution:coupled microgrids[J].Proceedings of the IEEE,2011,99(6):1074-1082.
[14]  FENIX Project.2009-09
[15]  .http://www.fenix-project.org/.
[16]  Dugan R,McDermott T E,Ball G J.Planning for distributed generation[J].IEEE Industry Applications Magazine,2001,7(2):80-88.
[17]  王明俊.智能电网与智能能源网[J].电网技术,2010,34(10):1-5.Wang Mingjun.Smart grid and smart energy resource grid[J].Power System Technology,2010,34(10):1-5(in Chinese).
[18]  Krause T,Andersson G,Froehlich K,et al.Multiple-energy carriers:modeling of production,delivery,and consumption[J].Proceedings of the IEEE,2011,99(1):15-27.
[19]  Geidl M,Andersson G.Optimal power flow of multiple energy carriers[J].IEEE Transactions on Power Systems,2007,22(1):145-155.
[20]  Geidl M,Andersson G.A modeling and optimization approach for multiple energy carrier power flow[C]//Power Tech,2005 IEEE.Russia:IEEE,2005:1-7.
[21]  Koeppel G,Andersson G.Reliability modeling of multi-carrier energy systems[J].Energy,2009,34(3):235-244.
[22]  吉平,周孝信,宋云亭,等.区域可再生能源规划模型述评与展望[J].电网技术,2013,37(8):2071-2079.Ji Ping,Zhou Xiaoxin,Song Yunting,et al.Review and prospect of regional renewable energy planning models[J].Power System Technology,2013,37(8):2071-2079(in Chinese).
[23]  孙玉娇,周勤勇,申洪.未来中国输电网发展模式的分析与展望[J].电网技术,2013,37(7):1929-1935.Sun Yujiao,Zhou Qinyong,Shen Hong.Analysis and prospect on development patterns of China’s power transmission network in future[J].Power System Technology,2013,37(7):1929-1935(in Chinese).
[24]  丁然,康重庆,周天睿,等.低碳电网的技术途径分析与展望[J].电网技术,2011,35(10):1-8.Ding Ran,Kang Chongqing,Zhou Tianrui,et al.Analysis and prospect on technical approaches for low carbon power grid[J].Power System Technology,2011,35(10):1-8(in Chinese).
[25]  余贻鑫,秦超.智能电网基本理念阐释[J].中国科学:信息科学,2014,44(6):694-701.Yu Yixin,Qin Chao.Expatiation on the basic ideas of smart grid[J].Scientia Sinica:Informationis,2014,44(6):694-701(in Chinese).
[26]  江亿,刘晓华,薛志峰,等.能源转换系统评价指标的研究[J].中国能源,2004,26(3):27-31.Jiang Yi,Liu Xiaohua,Xue Zhifeng,et al.Study on ECC index of energy conversion system[J].Energy of China,2004,26(3):27-31(in Chinese).
[27]  鞠平,秦川,黄桦,等.面向智能电网的建模研究展望[J].电力系统自动化,2012,36(11):1-6.Ju Ping,Qin Chuan,Huang Hua,et al.Research trends of power system modeling geared to smart grid[J].Automation of Electric Power Systems,2012,36(11):1-6(in Chinese).
[28]  Mancarella P.MES(multi-energy systems):an overview of concepts and evaluation models[J].Energy,2014,65:1-17.
[29]  刘小军,李进,曲勇,等.冷热电三联供(CCHP)分布式能源系统建模综述[J].电网与清洁能源,2012,28(7):63-68.Liu Xiaojun,Li Jin,Qu Yong,et al.Overview of modeling of combined cooling heating and power system[J].Power System and Clean Energy,2012,28(7):63-68(in Chinese).
[30]  国家电网公司,中国电力科学研究院,国网江西省电力科学研究院等.一种基于不同能源类型的微网全能流建模方法:中国,201410437520.9[P].2014-09-01.
[31]  国家电网公司,中国电力科学研究院,国网江西省电力科学研究院,等.一种基于全能流模型的微电网能量优化方法:中国,201410437425.9[P].2014-09-01.
[32]  国家电网公司,中国电力科学研究院.一种基于全能流模型的微电网能量优化与评估方法:中国,201410436866.7[P].2014-09-01.
[33]  国家电网公司,中国电力科学研究院,国网江西省电力科学研究院,等.一种基于全能流模型的微电网综合性评估方法:中国,201410437532.1[P].2014-09-01.
[34]  Pirouti M,Bagdanavicius A,Ekanayake J,et al.Energy consumption and economic analyses of a district heating network[J].Energy,2013,57:149-59.
[35]  Rubio-Maya C,Uche-Marcuello J,Martínez-Gracia A,et al.Design optimization of a polygeneration plant fuelled by natural gas and renewable energy sources[J].Applied Energy,2011,88(2):449-457.
[36]  Zhou Z,Zhang J,Liu P,et al.A two-stage stochastic programming model for the optimal design of distributed energy systems[J].Applied Energy,2013,103:135-144.
[37]  杨洪春,兰玉祥,刘思东.排污权交易下的多能源联供系统优化调度[J].电力科学与技术学报,2012,27(2):76-80.Yang Hongchun,Lan Yuxiang,Liu Sidong.Optimal dispatch for multi-energy supply system in emissions trading environment[J].Journal of Electric Power,Science,and Technology,2012,27(2):76-80(in Chinese).
[38]  向月,刘俊勇,刘友波,等.含微网新型配电系统协调优化关键问题研究[J].华东电力,2013,41(5):981-986.Xiang Yue,Liu Junyong,Liu Youbo,et al.Key issues in collaborative optimization of distribution system with microgrid[J].East China Electric Power,2013,41(5):981-986(in Chinese).
[39]  何舜,郑毅,蔡旭,等.微网能源系统的滚动优化管理[J].电网技术,2014,38(9):2349-2355.He Shun,Zheng Yi,Cai Xu,et al.Receding-horizon optimization for microgrid energy management[J].Power System Technology,2014,38(9):2349-2355(in Chinese).
[40]  Havelsky V.Energetic efficiency of cogeneration systems for combined heat,cold and power production[J].International Journal of Refrigeration,1999,22(6):479-485.
[41]  He C,Feng X.Evaluation indicators for energy-chemical systems with multi-feed and multi-product[J].Energy,2012,43(1):344-354.
[42]  Chicco G,Mancarella P.Assessment of the greenhouse gas emissions from cogeneration and trigeneration systems,part I:models and indicators[J].Energy,2008,33(3):410-417.
[43]  Mancarella P,Chicco G.Assessment of the greenhouse gas emissions from cogeneration and trigeneration systems,part II:analysis techniques and application cases[J].Energy,2008,33(3):418-430.
[44]  Bagdanavicius A,Jenkins N,Hammond G P.Assessment of community energy supply systems using energy,exergy and exergoeconomic analysis[J].Energy,2012,45(1):247-255.
[45]  罗奕,王钢,汪隆君.微网可靠性评估指标研究[J].电力系统自动化,2013,37(5):9-14.Luo Yi,Wang Gang,Wang Longjun.Reliability evaluation indices for microgrid[J].Automation of Electric Power Systems,2013,37(5):9-14(in Chinese).
[46]  贾宏杰,王丹,徐宪东.区域综合能源系统若干问题研究[J].电力系统自动化,2015,39(7):198-207.Jia Hongjie,Wang Dan,Xu Xiandong.Study on some key problems related to integrated energy systems[J],Automation of Electric Power Systems,2015,39(7):198-207(in Chinese).

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