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基于类型比较的严寒地区被动式木结构建筑碳排放分析 被引量:7

CARBON EMISSION ANALYSIS OF PASSIVE TIMBER BUILDINGS IN SEVER COLD REGION BASED ON TYPE COMPARISON
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摘要 在确定典型严寒地区被动式木结构建筑技术做法的基础上,通过建立木结构与混凝土结构的同比模型,对比计算并分析其全生命周期的碳排放数值,揭示了在不考虑木材生长过程中固碳能力的前提下,严寒地区典型被动式木结构建筑全生命周期碳排放同比混凝土建筑低11.1%,并具有明显的性价比,且材料和建造方式是其决定因素,对建筑设计形成诸多启示。 On the basis of identifying the technical practices of a typical passive wood-frame building in a severe cold area,a wood-frame model was developed to compare the carbon emissions of a wood-frame building with a concrete one,and then the whole life cycle carbon emissions were calculated and analyzed,revealing that without considering the carbon sequestration capacity of wood,the whole life cycle carbon emissions of a typical passive wood-frame building in a severe cold area are 11.1%lower than those of a concrete building.The obvious price/performance ratio,with materials and construction methods being the deciding factors,has inspired many architectural.designs.
作者 徐洪澎 李恺文 刘哲瑞 XU Hong-peng;LI Kai-wen;LIU Zhe-rui(Harbin Institute of Technology,School of Architecture,150006,Harbin,China;Key Laboratory of Cold Region Urban and Rural Human Settlement Environment Science and Technology,Ministry of Industry and Information Technology,150006,Harbin,China)
机构地区 哈尔滨工业大学建筑学院 寒地人居环境科学与技术工业和信息化部重点实验室
出处 《建筑技术》 2021年第3期324-328,共5页 Architecture Technology
关键词 被动式 严寒地区 木结构建筑 混凝土建筑 碳排放 passive severe cold area wood construction concrete construction carbon emissions
分类号 TU74 [建筑科学—建筑技术科学]
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  • 1李飞,崔胜辉,高莉洁,林剑艺,于洋.砖混和剪力墙结构住宅建筑碳足迹对比研究[J].环境科学与技术,2012,35(S1):18-22. 被引量:9
  • 2Marcel Elswijk, Henk Kaan. European Embedding of Passive Houses: PEP-project Report 2008.
  • 3Henk Kaan, Isolda Strom, Chiel Boonstra. Passive Houses Worldwide: International Developments. 10th International Passive House Conference 2006: 236-242.
  • 4Irene Schoene. Towards Better Energy Efficiency. Green Building Magazine. Summer08: 36-41.
  • 5Thorsten Schuetze & Pil-Ryul Lee, Passive Houses in Korea. 12th International Passive House Conference 2006: 325-330.
  • 6A. Audenaert, S.H. De Cleyn, B. Vankerckhove. Economic analysis of passive houses and low-energy houses compared with standard hour, Energy Policy. 36. 2008: 47- 55.
  • 7Bfinnel V, Munstermann S, Bleck W, et al. Sturctural requirements and material solutions for sustainable buildings[ J ]. Revue de M etallurgie, 2013,110 : 37-46.
  • 8Alcoru J A, Baird G. Use of a hybrid energy analysis method for evaluating the embodied energy of building materials [ J ]. Renewable Energy, 1996,8 ( 1-4 ) :319-322.
  • 9Buchanan A H, Honey B G. Energy and carbon dioxide implications of building construction[J]. Energy and Buildings, 1994,20(3) :205-217.
  • 10BjOrklund T, Jinsson A, Tillman A M. LCA of building frame structures: environmental impact over the life cycle of concrete and steel frames [ J ]. International Journal of Life Cycle Assessment, 1998, 3 (4) :216-224.

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2021年 第3期

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