基于复杂适应系统理论的城镇综合能源规划方法研究
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摘要
如何利用可再生能源并融合新型信息化技术来满足未来社会生产需求,已成为一项重要的研究课题。依据社会经济发展及城镇规划建设纲要,结合能源变化复杂的系统背景,应用复杂适应系统理论,并与实际规划工作特点相结合,提出"三层两中心"的管理体系及规划方法,同时以无锡锡东科技园为实例,从顶层设计入手,底层设施搭建,系统分析并验证该方法的有效性,为应对城镇能源变革的挑战提供一种有效的解决方法。
How to use renewable energy and integrate new information technology to meet future social production needs has become an important research topic. On the basis of social economic development and urban planning and construction program, combinedwithchangesintheenergycomplexsystembackground,using thetheoryofcomplexadaptivesystem,andcombiningwiththecharacteristics of the actual planning work,"three layers of two center"method of management system and planning is put forward. At the same time, take Suzhou city of science and technology as an example, from the top-level design of the underlying infrastructure building,systemanalysisandverifytheeffectivenessoftheproposedsystem method, an effective solution is provided in order to meet the challengesoftheurbanenergychange.
How to use renewable energy and integrate new information technology to meet future social production needs has become an important research topic. On the basis of social economic development and urban planning and construction program, combinedwithchangesintheenergycomplexsystembackground,using thetheoryofcomplexadaptivesystem,andcombiningwiththecharacteristics of the actual planning work,"three layers of two center"method of management system and planning is put forward. At the same time, take Suzhou city of science and technology as an example, from the top-level design of the underlying infrastructure building,systemanalysisandverifytheeffectivenessoftheproposedsystem method, an effective solution is provided in order to meet the challengesoftheurbanenergychange.
引文
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[6]甘中学,朱晓军,王成,等.泛能网--信息与能量耦合的能源互联网[J].中国工程科学,2015,17(9):98-104.GAN Zhongxue,Zhu Xiaojun,Wang Cheng,et al.Panergy network-an energy Internet with information and energy coupling[J].Chinese engineering science,2015,17(9):98-104.
[7]曹一家,陈彦如,曹丽华,等.复杂系统理论在电力系统中的应用研究展望[J].中国电机工程学报,2012,32(19):1-9,178.CAO Yijia,CHEN Yanru,CAO Lihua,et al.Prospect of application of complex system theory in power system[J].Proceedings of the CSEE,2012,32(19):1-9,178.
[8]张菡.基于复杂适应系统理论的陕西省金融生态研究[D].西安:西北大学,2013.ZHANG Han.Financial ecology research in Shaanxi province based on complex adaptive system theory[D].Xi’an:Northwest University,2013.(下转第47页)
[9]MANESH,VAHABZADEH S,TADI,et al.Sustainable urban morphology emergence via complex adaptive system analysis:sustainable design in existing context[J].Procedia Engineering,2011(36):89-97.
[10]KHAYUT B,FABRI L,AVIKHANA M.Modeling of intelligent system thinking in complex adaptive systems[J].Procedia Computer Science,2014(36):93-100.
[11]邓建玲,王飞跃,陈耀斌,等.从工业4.0到能源5.0:智能能源系统的概念、内涵及体系框架[J].自动化学报,2015,41(12):2 003-2 016.DENG Jianling,WANG Feiyue,CHEN Yanbin,et al.From industry 4.0 to energy 5.0:concept,connotation and framework of intelligent energy system[J].Journal of Automation,2015,41(12):2 003-2 016.
[12]管晓宏,赵千川,贾庆山,等.信息物理融合能源系统[M].北京:科学出版社,2015.GUAN Xiaohong,ZHAO Qianchuan,JIA Qingshan,et al.Information physics fusion energy eystem[M].Beijing:Science Press,2015.
[13]陈政,王丽华,曾鸣,等.国内外售电侧改革背景下的电力需求侧管理[J].电力需求侧管理,2016(3):62-64.CHEN Zheng,WANG Lihua,ZENG Ming,et al.Power demand side management under the background of domestic and foreign electricity selling side reform[J].Power Demand Side Management,2016(3):62-64.
[14]吴俊伟,梁星宇,于兵,等.DSM综合评估中适用评价方法的分析[J].电力需求侧管理,2016(6):27-31.WU Junwei,LIANG Xingyu,YU Bing,et al.DSM analysis of evaluation methods applicable to comprehensive[J].Power Demand Side Management,2016(6):27-31.