针对智利不同气候和地震带对中层轻型木结构建筑进行能源和结构优化

IF 2.4 3区 农林科学 Q1 FORESTRY
Alexander Wenzel, Sergio Vera, Pablo Guindos
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引用次数: 0

摘要

地理位置不仅决定了气候条件,还决定了结构必须承受的结构荷载。智利的气候和抗震要求多种多样,因此,在设计轻型木结构建筑时要同时考虑能耗和抗震设计参数以及边界条件,这就成为了一项艰巨的任务。本研究的主要目的是分析和量化气候、地震荷载、侧向锚固和层数对最佳节能设计方案的影响,包括轻型木结构建筑的抗震性能。此外,考虑到智利五个城市的不同气候、地震带、层数和侧向锚固系统,对最佳设计进行了参数分析,以防止侧向地震力引起的摇晃(倾覆)。根据建筑物的层数、侧向锚固系统、气候和地震带的不同,最佳墙体保温层厚度、墙螺栓间距和热质量都有显著差异。因此,本次调查的结果加强了对轻型木结构建筑进行综合节能和抗震设计的必要性。根据气候荷载和地震荷载的组合以及层数和锚固系统的不同,本次研究获得的最佳设计方案也有很大差异。文章的主要贡献在于证明了轻型木结构建筑的结构设计与能源设计之间的相互联系,以及诸如墙柱间距、楼板混凝土厚度层和墙体保温层厚度等设计变量是如何根据不同的气候、地震荷载、侧向锚固和层数而相互关联和变化的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Energy and structural optimization of mid-rise light-frame timber buildings for different climates and seismic zones in Chile

Energy and structural optimization of mid-rise light-frame timber buildings for different climates and seismic zones in Chile

Location determines not only the climatic condition but also the structural loads that the structure must withstand. Given the broad variety of climatic and seismic requirements of Chile, the design of lightweight timber buildings considering both energy and seismic design parameters and boundary conditions becomes a difficult task. The main objective of this research is to analyze and quantify the effect of climates, seismic loads, lateral anchorage, and story number on the optimal energy design solutions, including the seismic behavior in a light-frame timber building. Furthermore, the optimal design was parametrically analyzed considering five Chilean cities that consider different climates, seismic zone, number of stories, and lateral anchorage systems to prevent rocking (overturning) due to lateral seismic forces. The optimal wall insulation thickness, stud spacing, and thermal mass exhibited significant variations depending on the buildings' number of stories, lateral anchorage system, climate, and seismic zone. Therefore, the results of this investigation reinforce the necessity of integrating energy and seismic designs for light-frame timber buildings. The optimal designs obtained in this investigation showed considerable variations depending on the combination of climatic and seismic loads as well as the number of stories and anchoring systems. The article's main contributions are the evidence of the structural and energy design interconnection of light-frame timber buildings and how design variables, such as stud spacing, floor concrete thickness layer, and wall insulation thickness, are related and change according to the different climates, seismic loads, lateral anchorage, and story number.

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来源期刊
European Journal of Wood and Wood Products
European Journal of Wood and Wood Products 工程技术-材料科学:纸与木材
CiteScore
5.40
自引率
3.80%
发文量
124
审稿时长
6.0 months
期刊介绍: European Journal of Wood and Wood Products reports on original research and new developments in the field of wood and wood products and their biological, chemical, physical as well as mechanical and technological properties, processes and uses. Subjects range from roundwood to wood based products, composite materials and structural applications, with related jointing techniques. Moreover, it deals with wood as a chemical raw material, source of energy as well as with inter-disciplinary aspects of environmental assessment and international markets. European Journal of Wood and Wood Products aims at promoting international scientific communication and transfer of new technologies from research into practice.
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