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天然采光对建筑能耗影响的研究 被引量:14

THE INFLUENCE OF DAYLIGHTING ON BUILDING ENERGY CONSUMPTION
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摘要 在定性分析天然采光对建筑能耗影响的基础上,以一天窗建筑为研究对象,利用eQUEST能耗模拟软件为工具,分析了结合照明控制的天窗采光对夏季供冷峰值负荷及建筑各用能项如照明、供冷、供热的能耗影响,探讨了天窗透光率、照明密度、照明控制方式对建筑能耗的影响,并针对不同气候地区的典型城市探讨了昼光照明的气候差异性。 Based on the qualitative analysis of the influence to building energy consumption, the skylight building was chosen as a model and eQUEST was used to analyze the influence of daylighting system on peak cooling load in the summer and the energy consumption of lighting, cooling, heating etc, and the influence of visible transmittance, lighting density and control types to building energy consumption was also discussed. Aiming at the typical cities in different climates, the characteristics of energy consumption of daylighting system between different areas was analyzed.
作者 彭鹏 郑洁
机构地区 重庆大学城市建设与环境工程学院
出处 《太阳能学报》 EI CAS CSCD 北大核心 2007年第12期1375-1379,共5页 Acta Energiae Solaris Sinica
关键词 天然采光 天窗开口率 透光率 照明密度 能耗 daylighting skylight to floor ratio visible transmittance lighting density energy consumption
分类号 TU113.5 [建筑科学—建筑理论]
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参考文献7

  • 1Beltran L O, Lee E S, Selkowitz S E. Advanced optical daylighting system: light shelves and light pipes[ A]. IESNA Annual Conference[C], Cleveland, OH, 1996.
  • 2Floyd David B, Parker Danny S. Field commissioning of a daylight-dimming lighting system[ OE/BL]. http ://www. fsec. ucf. edu/bldg/pubs/pf283.
  • 3陈红兵,涂光备,陈国泰.自然光的利用与节能分析[J].太阳能学报,2004,25(4):515-518. 被引量:8
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  • 5DOE-2 Verification Project, Phase 1, Final Report. Los Alamos National laboratory[R]. LA-10649-MS, 1986.
  • 6Frederick W, Stephen S. Daylighting simulation in DOE-2: Theory, validation and applications[R]. Applied Science Division, Lawrence Berkeley Laboratory: 326-336.
  • 7James J H. DOE-2.2 building energy use and cost analysis program volume 3 : Topics [ M ]. Lawrence Berkeley National Laboratory, 2004: 166-179.

二级参考文献10

  • 1Hopkirk N. Daylighting . In: Hastings R, editor.Passive solat cimmercial and institutional buildings: a sourcebook of examples and design insights [M]. IntEnergy Agency(IEA), 1994.
  • 2Jiraratananon S. Linghting and daylighting in buildings in energy consrvation in buildings [A] . Mohanty B,Bouix P, editors. Proceedings of the 5th Asian School[C], Bangkok; AIT; 15-23 June , 1987, 34-44.
  • 3Simons R H, Bean. A R. Lighting engineering [M].Architectural Press, 2001, 455.
  • 4Lynes J A. A squence for daylighting design [J].Lighting Research and Technology, 1979, 11 (2):106-116.
  • 5Crisp V H C, Littlefir P J. Average daylight factor prediction [A]. CIBSE Natioanl Lighting Confernce[C], 1984, 28-39.
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  • 7Census and Statistics Department. Hong Kong Month ly Digest of Statistics [R], Hong Kong (1970-1996) .
  • 8Chan A L S, Development of guidelines for energy-efficient operation of fully air-conditioned builngs in Hong Kong [D]. city Univesity of Hong Kong , Hong Kong , 1994.
  • 9Baker N, Fanciotti A, Steemers K. Daylighting in architecture; a European reference book [M]. Comm of the European Communities, London: James and James (Sc. Publ.) ; 1993.
  • 10Hastings S R. Computer design tools for climate-responsive architecture [J]. Solar Wind Technology,1989, 6(4): 357-364.

共引文献7

同被引文献90

引证文献14

二级引证文献31

太阳能学报
2007年 第12期

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