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立体绿化对室外热环境的影响机制和效益评估指标研究 被引量:2

Study on Impact Mechanism and Benefit Evaluation Index of Three-Dimensional Greening on Outdoor Thermal Environment
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摘要 基于CiteSpace文献计量方法对Web of Science数据库的文献进行分析,针对立体绿化的物理热环境评估指标缺乏系统性的问题,梳理了立体绿化对室外热环境的影响机制和效益评估方法,主要聚焦于室外热环境的表征因子、立体绿化影响因子及其对应的评估工具,总结目前国内外立体绿化对热环境研究中各类影响指标的相互关系,并展望可持续建筑环境的未来。 Based on the CiteSpace bibliometric method,this paper studies the literature in the database of Web of Science.In view of the lack of systematic evaluation index of physical thermal environment of three-dimensional greening,the paper combs the impact mechanism and benefit evaluation method of three-dimensional greening on outdoor thermal environment.This paper mainly focuses on the characterization factors of outdoor thermal environment,the impact factors of three-dimensional greening and their corresponding evaluation tools,and summarizes the relationship of various impact indexes in the research of three-dimensional greening on thermal environment at home and abroad.Finally,the future of sustainable built environment is prospected.
作者 董楠楠 戴旺 杜诚 Dong Nannan;Dai Wang;Du Cheng(School of Architecture and Urban Planning,Tongji University,Shanghai 200092,China;Shanghai Shendi Garden Investment&Construction Co.,Ltd.,Shanghai 201205,China)
机构地区 同济大学建筑与城市规划学院 上海申迪园林投资建设有限公司
出处 《城市建筑》 2021年第22期185-190,共6页 Urbanism and Architecture
基金 上海市科委上海-新加坡产业创新合作计划项目“基于复杂建筑表皮特征的绿植部品数字化施工与智联养护技术”(20200731500) 自然资源部大都市区国土空间生态修复工程技术创新中心。
关键词 立体绿化 室外热环境 效益评估 影响机制 CITESPACE three-dimensional greening outdoor thermal environment benefit evaluation impact mechanism CiteSpace
分类号 TU984.12 [建筑科学—城市规划与设计]
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参考文献7

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  • 1杨振山,张慧,丁悦,孙艺芸.城市绿色空间研究内容与展望[J].地理科学进展,2015,34(1):18-29. 被引量:93
  • 2Ali-Toudert F. 2005. Dependence of Outdoor Thermal Comfort on Street Design in Hot and Dry Climate (PhD Thesis). Freiurg: University of Freiurg. 被引量:1
  • 3Ali-Toudert F, Mayer H. 2006. Numerical study on the effects of aspect ratio and orientation of an urban street canyon on outdoor thermal comfort in hot and dry climate. Building and Environment, 41: 94-108. 被引量:1
  • 4Ali-Toudert F, Mayer H. 2007. Effects of asymmetry, galleries, overhanging fagades and vegetation on thermal comfort in urban street canyons. Solar Energy, 81: 742-754. 被引量:1
  • 5ASHRAE. 2004. Thermal environmental conditions for human occupancy. Atlanta: American Society of Heating, Refrig- erating and Air-Conditioning Engineering. 被引量:1
  • 6Aynsley R, Spruill M. 1990. Thermal comfort models for outdoor thermal comfort in warm humid climates and probabilities of low wind speeds. Journal of Wind Engineering & Industrial Aerodynamics, 36: 481-488. 被引量:1
  • 7Blazejczyk K, Epstein Y, Jendritzky G, et al. 2012. Comparison of UTCI to selected thermal indices, lnternaltional Journal of Biometeorology, 56: 515-535. 被引量:1
  • 8Bruse M. 2009. ENVI-met homepage, http://www, envi-met. con,. 被引量:1
  • 9Cohen P, Potchter O, Matzarakis A. 2012. Daily and seasonal climatic conditions of green urban open spaces in the Medi- terranean climate and their impact on human comfort. Building and Environment, $1: 285-295. 被引量:1
  • 10Corbum J. 2009. Cities, climate change and urban heat island mitigation: Localising global environmental science. Urban Studies, 411: 413-427. 被引量:1

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2021年 第22期

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