欧盟国家城市节能技术类型研究
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摘要
欧洲通过积极推动新型能源和节能技术的发展来推动可持续发展在城市的实践,尤其在欧盟等区域性组织的大力支持下取得了全球瞩目的成效。然而,这些迅猛发展起来的新技术还未被完整、系统和全面的认知,对于城市这个载体,还没有一个目标明确结构完整的类型体现来指导新节能技术在城市的实践。本文以欧盟国家在节能技术方面的实践成果为研究对象,通过对城市节能技术本质的研究和类型框架的建构,获取研究欧盟国家城市节能技术案例的分类方法,利用案例研究和理论研究互相校验的方法,建立欧盟国家城市节能技术类型的框架。
本研究从节能城市的基本思想和本质特征出发,界定城市节能技术的目标和内涵,通过研究技术的本质、构成要素和分类方法,获得城市节能技术的分类方法和标准,在此基础上建立城市节能技术的类型框架。其次,在技术分类方法和类型框架结构的基础下,收集欧盟国家在城市节能技术方面的技术实践成果和相关案例,利用前期研究确立的分类方法和标准对案例资料进行信息分解和系统归类,建立欧盟国家城市节能技术类型的案例框架,通过理论上的类型框架与案例研究形成的类型框架的相互校正,最终形成较为真实的反映欧盟国家城市节能技术的类型体系。本次研究建立了一套能够较为系统的反映城市、技术与节能目标内在联系的技术分类方法,并以此建立了比较真实全面的反映欧盟节能技术发展状况的城市节能技术类型体系。本次研究成果可以为中国城市的生态发展、实现节能目标提供技术方面的借鉴意义,同时可以为进一步研究技术城市对于可持续发展的作用提供研究基础。
The energy-saving technologies have been one of the significant tools of the sustainable urban development and city construction during these years in European Union (EU) countries. However, it has't been studied theoretically and systematically for the classification of these technologies. The purpose this research is to establish a classification framework for the urban energy- saving technologies fully developed and implemented in EU countries, which is based on the research of classification method and criteria of urban energy saving technologies and the case studies of implementation practices and research outcomes on urban energy-saving technologies in EU countries.
The whole research is composed of three stages. In the first stage, the clear definition and basic objectives are given to the urban energy-saving technology, and also the classification metod and criteria are established for the theoretical research of energy-saving technology; in second stage, the method of case study is established, and also relevant material about energy-saving technoloy as well as technology implementation cases is collected, then the technologies is regrouped and reclassified based on theoretical classification method; in the third stage, by compareing and rechecking the theoretical classification framework of energy-saving technologies with the one established by the case study, the classification framework of urban energy-saving technologies in EU countries is finally determined. In the end, some conclusion is given based on the analysis of the classification framework and content of the energy-saving technologies.
本研究从节能城市的基本思想和本质特征出发,界定城市节能技术的目标和内涵,通过研究技术的本质、构成要素和分类方法,获得城市节能技术的分类方法和标准,在此基础上建立城市节能技术的类型框架。其次,在技术分类方法和类型框架结构的基础下,收集欧盟国家在城市节能技术方面的技术实践成果和相关案例,利用前期研究确立的分类方法和标准对案例资料进行信息分解和系统归类,建立欧盟国家城市节能技术类型的案例框架,通过理论上的类型框架与案例研究形成的类型框架的相互校正,最终形成较为真实的反映欧盟国家城市节能技术的类型体系。本次研究建立了一套能够较为系统的反映城市、技术与节能目标内在联系的技术分类方法,并以此建立了比较真实全面的反映欧盟节能技术发展状况的城市节能技术类型体系。本次研究成果可以为中国城市的生态发展、实现节能目标提供技术方面的借鉴意义,同时可以为进一步研究技术城市对于可持续发展的作用提供研究基础。
The energy-saving technologies have been one of the significant tools of the sustainable urban development and city construction during these years in European Union (EU) countries. However, it has't been studied theoretically and systematically for the classification of these technologies. The purpose this research is to establish a classification framework for the urban energy- saving technologies fully developed and implemented in EU countries, which is based on the research of classification method and criteria of urban energy saving technologies and the case studies of implementation practices and research outcomes on urban energy-saving technologies in EU countries.
The whole research is composed of three stages. In the first stage, the clear definition and basic objectives are given to the urban energy-saving technology, and also the classification metod and criteria are established for the theoretical research of energy-saving technology; in second stage, the method of case study is established, and also relevant material about energy-saving technoloy as well as technology implementation cases is collected, then the technologies is regrouped and reclassified based on theoretical classification method; in the third stage, by compareing and rechecking the theoretical classification framework of energy-saving technologies with the one established by the case study, the classification framework of urban energy-saving technologies in EU countries is finally determined. In the end, some conclusion is given based on the analysis of the classification framework and content of the energy-saving technologies.
引文
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[3] 刘大椿.《科学技术哲学导论》.中国人民大学出版社 2000
[4] (法)阿莫兰(Hamelin,B.).新能源和关于核电站的争论.北京:原子能出版社,1986
[5] 边耀璋.汽车新能源技术.北京:人民交通出版社 2003
[6] 严俊,赵立飞.储能技术在分布式发电中的应用.安徽电力,2006 Vol23(3):55-58
[7] 王垂乃.科学、技术、能源.中国对外翻译出版公司,1986.7
[8] (美)乔治·E·斯蒂芬森.人类使用的动力.机械工业出版社,1988.7
[9] 世界能源会议编.能源术语词汇集(2版).北京:能源出版社 1989
[10] 邓树增.自然辩证法.长沙:湖南大学出版社,1989.6
[11] 李伟,钟扬.分支分类的理论与方法.科学出版社,1992
[12] 汪丽君,舒平.类型学建筑.天津大学出版社,2004
[13] 黄肇义,杨东援.国内外生态城市理论研究综述.城市规划,2005,Vol25(1):59-65
[14] 张剑如.生态城市的伦理观念创新.学海,2001(5):37-38
[15] 彭晓春,李明光,陈新庚,黄鸽.生态城市的内涵.现代城市研究,2001(6):30-32
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[17] 赵撮元.能源科学技术与环境保护.学术书刊出版社.1989.11
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[20] http://ec.europa.eu/energy/res/sectors/geothermal_energy_en.htm
[21] http://ec.europa.eu/energy/res/sectors/ocean_energy_en.htm
[22] http://concertoplus.eu/
[23] http://www.lamp.polito.it/polycity/uk/
[24] http://www.polycity.net/en/
[25] http://www.concerto-sesac.eu/
[26] http://www.crrescendo.com/
[27] http://www.concertoplus.eu/projects/act2
[28] http://www.ecocity-project.eu/
[29] http://www.energy-in-minds.de/
[30] http:www.polycity.netvv
[31] http://www.ecocity-project.eu/
[32] http://www.cowiprojects.com/ecoculture/
[33] http://www.learn.londonmet.ac.uk/
[34] http://www.eu-greenbuilding.org/
[35] http://www.civitasinc.com
[36] http://www.steer-snowball.info/
[37] http://www.solarge.org/
[38] http://ec.europa.eu/energy/intelligent/
[39] http://www.greenenergycluster.info/
[40] http://kheops.champs.cstb.fr/greeniteu/
[41] http://www.passive-on.org/en/
[42] http://www.wastewaterheat.net/
[43] http://www.suden.org/english/
[44] http://www.combnet.com/
[45] http://www.gasnet.uk.net/
[46] http://www.sugre.info/
[47] http://www.socialhousingaction.com/
[48] http://www.rosh-project.eu/
[49] http://www.reshape-social-housing.eu/
[50] http://www.mcpeurope.net/4em/
[51] http://www.5eures.eu.com/
[51] http://www.access-ret.net/
[52] http://www.erec-renewables.org/
[53] http://www.aebiom.org/
[54] http://www.eubionet.net/
[55] http://www.andenergy.org/
[56] http://www.astute-eu.org/
[57] http://www.bestfacade.com/
[58] http://www.bestresult-iee.com/
[59] http://www.cres.gr/biodiesel/
[60] http://www.bioprom.net/
[61] http://www.biohousing.eu.com/
[62] http://www.solareast-gsr.net/
[63] http://www.energy-check.org/
[64] http://www.econhome.net/
[60] http://www.ecodrive.org/
[61] http://www.eebd.org/
[62] http://www.e-track-project.org/
[63] http://www.elep.net/
[64] http://www.energypluspumps.eu/
[65] http://www.enerlin.enea.it/
[66] http://www.enper-exist.com/
[67] http://www.e4c.org/
[68] http://www.e-streetlight.com/
[69] http://www.e-tool.org/
[70] http://www.learn.londonmet.ac.uk/
[71] http://www.topten.info/
[72] http://www.suden.org/
[73] http://www.eu-greenbuilding.org/
[74] http://www.greenenergycluster.info
[75] http://www.green-it.eu/
[76] http://www.greenlabelspurchase.net/
[77] http://www.greennet-europe.org/
[78] http://groundreach.fiz-karlsruhe.de/
[79] http://www.regioexperten.de/
[80] http://www.microgrids-eie.com/
[80] http://www.midas-eu.com/
[81] http://www.optipolygen.org/
[82] http://www.optres.fhg.de/
[83] http://www.passive-on.org/
[84] http://www.pep.org.uk/
[85] http://www.steer-snowball.info/
[86] http://www.refuel.eu/
[87] http://www.solarge.org/
[88] http://www.sugre.info/
[89] http://www.wastewaterheat.net/
[90] 元炯亮,郝存江,刘景洋.生态技术系统建构的原则和方法.中国人口、资源和环境,2003,Vol13(6):109-112
[91] 李胜才,刘建荣.建构兼具传统理念的绿色建筑技术体系.四川建筑科学研究,2005,Vol31(1):98-100
[92] 邢永杰,陈闯.分布式能源系统建构绿色奥运.建设科技,2003(10):42-43
[93] 孔祥强,王如竹,黄兴华.分布式区域冷热电联供系统.大众用电,2004(7):17-20
[94] 周水洪.建筑节能技术之太阳能制冷技术.建筑节能,2004(4):37-39
[95] 郑宏飞,陈子乾.绿色生态建筑中可应用的太阳能技术.工业建筑,2003,Vol33(10):5-8
[96] 董子忠,王体,温永玲,陈启高.Low-E镀膜玻璃的热工性能.新型建筑材料,2003(3):50-54
[97] 李鑫,李安定,李斌,郑飞.碟式/斯特林太阳能热发电系统经济性分析.中国电机工程学报,2005,Vol25(12):108-111
[98] 宋世栋,张华民,马霄平,邵志刚,衣宝廉.可再生燃料电池的研究进展.电源技术,2006,Vol30(3):175-178
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