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面向“热力学建筑”的透光薄膜光伏表皮研究 被引量:1

A Study of "Thermodynamics Architecture" Oriented See-Through Thin-Film Photovoltaic Facade
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摘要 面向"热力学建筑",阐释了透光薄膜光伏表皮革新式的能量系统。材料的固有属性彻底改变了表皮能量系统的原有定位,从被动地应对能量消耗变为最大程度地主动获取并控制能量利用。通过对透光薄膜光伏表皮的肌理、色彩、形式美等美学要素进行系统、全面的分析,并辅以案例说明,以期为透光薄膜光伏表皮的创新设计提供参考。 With the concern about "thermodynamics architecture" , this paper interprets innovative energy system of see-through thin-film photovoltaic facade. The inherent property of the material completely changes the original role of the building skin energy system, and could to the greatest extent turn passive energy consumption into active energy gain and control energy utilization. Through systematic analysis on aesthetic elements of the see-through thin-film photovoltaic skin, such as material texture, color, and form, and case studies, the paper intends to provide references for innovative design of see-through thin-film photovoltaic facade.
作者 朱丽 霍玉佼 孙勇
机构地区 天津大学建筑学院 天津大学建筑学院
出处 《新建筑》 2017年第2期70-73,共4页 New Architecture
基金 国家自然科学基金资助项目(51478297) 高等学校学科创新引智计划项目(B13011)
关键词 透光薄膜光伏表皮 能量系统 美学分析 设计表达 see-through thin-film photovoltaic facade, energy system, aesthetic analysis,design expression
分类号 TU238.1 [建筑科学—建筑设计及理论]
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  • 1Eero Vartiainen, Kimmo Peippo, Peter Lund. Daylight optimizafion of multifimcfional solar facades [ J]. Solar Energy, 2000, 68: 223--235.
  • 2Miyazaki T, Akisawa A, Kashiwagi T. Energy savings of ofrice buildings by the use of semi-transparent solar cells for windows[J]. Renewable Energy, 2005, 30: 281--304.
  • 3Chow T T, Fong K F, He W, et al. Performance evaluation of a PV ventilated vdndow applying to office building of Hong Kong[J]. Energy and Buildings, 2007, 39(6): 643--650.
  • 4Geun Y Y, Mike M, Koen S. Design and overall energy per-fonnance of a ventilated photovoltaic facade[J]. Solar Evergy, 2007,81: 383--394.
  • 5Remi C, Andreas K, Athienitis. Optimization of the perfor-mance of double-facades with integrated photovoltaic panels and motorized blinds [ J ]. Solar Energy, 2006, 80: 482-- 491.
  • 6Chow T T, Chan A L S, Fong K F, et al. Hong Kong solar radiation on building facades evaluated by numerical models[J].Applied Thermal Engineering, 2005, 25: 1908-1921.
  • 7Chow T T, Lin Z, He W, et al. Use of ventilated solar screen window in warm climate [ J ]. Applied Thermal Engineering, 2006, 26: 1910--1918.
  • 8Fung Tady Y Y,Tang H.Study on thermal performance of semi-transparent building-integrated photovoltaic glazings[J].Energy and Buildings,2008,40:341-350.
  • 9Gan G,Rifat S B.CFD modelling of air flow and thermal performance of an atrium atrium integrated with photovoltaics[J].Building and Environment,2004,39:735-748.
  • 10Vartiainen E.Electricity benefits of daylighting and photovoltaics for various solar facade layouts in office buildings[J].Energy and Buildings,2001,33:113-120.

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