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基于BIM+GREEN的高性能建筑设计研究 被引量:1

Research on High-performance Architectural Design Based on BIM+GREEN
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摘要 文中对BIM+GREEN技术的概念与优势进行了分析,并提出其在高性能建筑设计中的应用方法,结合绿色建筑分析软件,对建筑的光环境、风环境、声环境等性能进行模拟和优化设计,推动高性能建筑设计与节能发展。 In this paper,the concept and advantages of BIM+GREEN technology are analyzed,and the application method of BIM+GREEN technology in high-performance building design is proposed.Combined with GREEN building analysis software,the performance of the building’s light environment,wind environment,sound environment and other performance simulation and optimization design,promote the development of high-performance building design and energy saving.
作者 甘路 Gan Lu(Guangzhou Mingyang Architectural Design Co.Ltd.,Jiangxi Branch,Nanchang,Jiangxi 330000)
机构地区 广州名阳建筑设计有限公司江西分公司
出处 《江西建材》 2022年第1期55-56,共2页 Jiangxi Building Materials
关键词 BIM技术 绿色建筑 高性能 性能模拟 BIM technology Green building High performance Performance simulation
分类号 TU2 [建筑科学—建筑设计及理论]
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  • 1王凯.国外BIM标准研究[J].土木建筑工程信息技术,2013,5(1):6-16. 被引量:24
  • 2GB/T 50378-2014,绿色建筑评价标准[S].
  • 3Nilashi M, Zakaria R, Ibrahim O, et al. A knowledge-based expert system for assessing the performance level of green buildings[J]. Knowledge-Based Systems, 2015, 86: 194-209.
  • 4Jalaei F, Jrade A. Integrating BIM with Green Building Certification System, Energy Analysis, and Cost Estimating Tools to Conceptually Design Sustainable Buildings[J]. Electronic Journal of Information Technology in Construction, 2014, 19 (5): 140-149.
  • 5Wu I C, Chang S. Visual Req calculation tool for green building evaluation in Taiwan[J] . Automation in Construction, 2013, 35 (14): 608-617.
  • 6B T Zhong, L Y Ding, H B Luo, et al. Ontology-based semantic modeling of regulation constraint for automated construction quality compliance checking[J]. Automation in Construction, 2012, 28 (12): 58-70.
  • 7T R Gruber. A Translational Approach to Portable Ontologies[J]. Knowledge Acquisition, 1993, 5 ( 2 ): 199-220.
  • 8Mcguiness D L, Harmelen F V, Mcguiness D L. Owl Web Ontology Language Overview: W3C Recommendation( 10 February 2004 ) [J]. W3c Recommendation, 2004, 63 (45): 990-996.
  • 9Horridge M, Knublauch H, Rector A, et al. A Practical Guide to Building OWL Ontologies Using the Prot6g6-OWL Plugin and CO-ODE Tools[M]. Manchester: The University of Manchester, 2007.
  • 10Hou S, Li H, Rezgui Y. Ontology-based approach for structural design considering low embodied energy and carbon[J]. Energy & Buildings, 2015, 102: 75-90.

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江西建材
2022年 第1期

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