年轻利益相关者对大规模工程木材(MET)住宅楼的接受度

IF 3.5 Q3 GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY
G. Shang, Low Sui Pheng, Benjamin Peh Kah Fai
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引用次数: 0

摘要

目的传统的建筑材料和方法通常被认为是非生产性的、劳动密集型的,对环境有害。大规模工程木材(MET)是一种新的结构材料,能够克服影响建筑环境的许多问题。本研究旨在评估新加坡年轻人目前对工程木结构住宅概念的态度和看法。设计/方法/方法本研究采用混合方法。问卷调查被用作数据收集的主要方式。这些信息被传播给18至35岁的新加坡人。共收集了179份有效回复。随后,对六名具有不同人口统计学特征的个人进行了半结构化访谈,以获得进一步的见解,并对回答进行交叉验证。调查结果统计分析显示,80%的受访者愿意接受ETRB,但对MET缺乏认识和知识,以及存在误解,如与森林砍伐有关,可能会引起担忧。研究还表明,个体对ETRB的接受程度不受人口统计学的影响。独创性/价值MET的生产涉及比传统材料更低的总体碳排放,这也允许采用制造和组装设计(DfMA)概念,并提供碳封存的好处。住宅楼是新加坡第二常见的建筑类型;如果MET被用作住宅建筑的主要材料,则可以获得显著的效益。总的来说,新加坡的年轻利益相关者欢迎ETRB的概念,尽管对ETRB存在不确定性——考虑到该材料缺乏使用记录,这是可以理解的。因此,建议公共当局探讨将ETRB概念作为公共住房选择的可行性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Receptiveness of mass-engineered timber (MET) residential buildings among young stakeholders
PurposeTraditional construction materials and methodologies are often perceived to be unproductive, labour-intensive and detrimental to the environment. Mass-engineered timber (MET) is a new structural material that is capable of overcoming numerous issues that otherwise affect the built environment. This study was formulated to assess the current attitude and perception of young Singaporeans towards the concept of Engineered Timber Residential Buildings (ETRBs).Design/methodology/approachThe study employs the mixed-method approach. Questionnaires were used as the primary mode of data gathering. These were disseminated to Singaporeans between the age of 18 and 35 years. A total of 179 valid responses were gathered. Semi-structured interviews were subsequently conducted with six individuals with different demographics in order to gain further insightful opinions and to allow cross validation of responses.FindingsStatistical analysis revealed that 80% of respondents were willing to accept ETRBs, but a lack of awareness and knowledge of MET and the presence of misconceptions, such as an association with deforestation, may present concerns. The study also revealed that individual acceptance of ETRBs is not affected by demographics.Originality/valueThe production of MET involves lower overall carbon emissions than that of conventional materials, and this also allows adoption of the Design for Manufacturing and Assembly (DfMA) concept and offers the benefit of carbon sequestration. Residential buildings are the second most common building type in Singapore; significant benefits can be gained if MET is used as the primary material for residential buildings. In general, young stakeholders in Singapore welcome the concept of ETRBs, despite possessing uncertainties about ETRBs—understandable given that the material lacks a track record of usage. Public authorities are thus advised to explore the feasibility of materialising the concept of ETRBs as an option for public housing.
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来源期刊
Smart and Sustainable Built Environment
Smart and Sustainable Built Environment GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY-
CiteScore
9.20
自引率
8.30%
发文量
53
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