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Systematic framework for the efficient integration of wind technologies into buildings

Systematic framework for the efficient integration of wind technologies into buildings
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摘要 The renewed interest that is being paid by architects, project developers and local governments to integrate wind turbines with buildings is mainly required a framework to unify much data, criteria and variables to ease the design process to many architects. Therefore, this paper introduces and elaborates the systematic framework towards the efficient integration of wind technologies into new building. Moreover, it evaluates the framework effectiveness by comparing the current status of wind technologies integration into a buitding with the suggested status if the framework is followed. The renewed interest that is being paid by architects, project developers and local governments to integrate wind turbines with buildings is mainly required a framework to unify much data, criteria and variables to ease the design process to many architects. Therefore, this paper introduces and elaborates the systematic framework towards the efficient integration of wind technologies into new building. Moreover, it evaluates the framework effectiveness by comparing the current status of wind technologies integration into a buitding with the suggested status if the framework is followed.
作者 Ashraf A. ELMokadem Naglaa A. Megahed Dina S. Noaman
机构地区 Architecture and Urban Planning Department
出处 《Frontiers of Architectural Research》 CSCD 2016年第1期1-14,共14页 建筑学研究前沿(英文版)
关键词 Building integratedwind technology Integration method Systematic framework Building integratedwind technology Integration method Systematic framework
分类号 TU-86 [艺术—艺术设计] TK81 [动力工程及工程热物理—流体机械及工程]
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参考文献35

  • 1Aboheta, I., Hamza, N., Dudek, S., 2011. Urban wind turbines integration in the buitt form and environment. Newctte. Univ. Ej. 10, 23-39.
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  • 3American Wind Energy Association, 2003. Wind Energy Teacher's Guide. American Wind Energy Association. U.S Department of Energy, Washington, USA, 3-4.
  • 4American Wind Energy Association, 2009. AWEA Small Wind Turbine Performance and Safety Standard (AWEA 9.1 ). AWEA, Washing- ton, USA (Appendix A).
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  • 9Breshears, J., Briscoe, C., 2009. The informed application of building-integrated wind power. In: Proceedings of the 26th Conference on Passive and Low Enersy Architecture, Quebec City, Canada. Laval University, Quebec City, Canada, (Section (3.3.6)).
  • 10Cace, J., Horst, E., SyngeLtakis, K., Niel, M., Clement, R, Heppener, R., Peirano, E., 2007. GuideLines for SmaLL Wind Turbines in the BuiLt Environment. European Commission. Retrieved December 5, 2015, from the WorLd Wide Web: (http://www.urbanwind. net/pdf/SMALL WlND_TURBINES_GUIDE_finaL.pdf), pp. 27-33.
Frontiers of Architectural Research
2016年 第1期

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