系统范围内的建筑垃圾及其与施工阶段的联系,影响5M因素和影响:系统回顾

IF 3.5 Q3 GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY
M. Purushothaman, Jeff Seadon
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引用次数: 0

摘要

目的本文采用系统文献综述(SLR)方法,旨在揭示建筑业中各种全系统的废物,并强调与施工阶段的联系,即人员、材料、机器、方法和测量(5M)以及影响因素。设计/方法/方法本研究采用SLR方法,并审查了自2000年代以来发表的文章,以探索全系统废物与施工阶段、5M和影响因素的联系。结果以表格形式和因果循环图给出。研究结果表明,从不同角度进行的建筑和拆迁(CD)废物研究是独立的。该审查确定了建筑业中具有密切联系的十种全系统废物。这一发现强调了除材料、劳动力和时间外的废物与废物影响因素之间的联系。此外,审查结果强调了施工阶段(5M)的坚实联系,以及影响因素,如生产力(P)、延误(D)、事故(A)、资源利用率(R)和成本(C)。研究局限性/含义SLR方法局限性包括与最新的现场知识不同步。通过选择过去二十年内的文献综述范围来抵消这一限制。这篇文献综述可能没有捕捉到所有发表的文章,因为数据库访问和搜索的限制仅基于英语。此外,隐藏在不太受欢迎的期刊上的富有成果的文章可能不会被包括在被搜索的知名数据库中。研究人员对作者和其他撰写本文的研究人员的偏见是一种限制。这些限制是公认的。实际含义本文揭示了建筑系统范围内的废物及其相互联系,这将有助于行业理解并专注于消除废物。这篇文章强调了全系统废物与500万废物的连通性,这将有助于更好地了解废物的原因。此外,本文还讨论了全系统废物、5M和P、D、A、R和C的连通性,这将有助于组织的整体绩效。实际和理论意义包括更好地了解废物类型,以帮助获取更好的数据,从而减少废物并提高生产力。运营经理可以利用废物跟踪来比较每个工艺阶段的估计资源和实际资源。这篇关于全系统废物、5M和P、D、A、R和C、关系及其影响的文章可以推断,建筑业现在比以前更有可能确定废物的明确根本原因。理论意义包括增强学术界对废物、5M与P、D、A、R和C之间的联系的理解,学术界可以利用和扩展这些联系,为现有知识提供新的见解。独创性/价值本文首次对建筑行业的十种废物进行了分类和强调,以及这些行业与建筑阶段的联系、500万和影响因素。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
System-wide construction waste and their connectivity to construction phases, impacting 5M factors and effects: a systematic review
PurposeThis review paper, using a systematic literature review (SLR) approach, aims to unravel the various system-wide waste in the construction industry and highlight the connectivity to construction phases, namely men, materials, machines, methods and measurement (5M) and impacting factors.Design/methodology/approachThis study used an SLR approach and examined articles published since the 2000s to explore the connectivity of system-wide waste to construction phases, 5M and impacting factors. The results are given in table forms and a causal loop diagram.FindingsResults show that the construction and demolition (CD) waste research carried out from various perspectives is standalone. The review identified ten types of system-wide waste with strong interlinks in the construction industry. The finding highlights connectivity between wastes other than material, labour and time and the wastes' impacting factors. Further, the review results highlighted the solid connectivity for construction phases, 5M, and impacting factors such as productivity (P), delay (D), accidents (A), resource utilisation (R) and cost(C).Research limitations/implicationsSLR methodology limitations include not keeping in phase with the most updated field knowledge. This limitation is offset by choosing the range for literature review within the last two decades. This literature review may not have captured all published articles because the restriction of database access and search was based only on English. Also, fruitful articles hiding in less popular journals may not be included in the well-known database that was searched. Researcher bias of the authors and other researchers that authored the articles referred to is a limitation. These limitations are acknowledged.Practical implicationsThis article unravels the construction system-wide waste and the waste's interlinks, which would aid industry understanding and focus on eliminating the waste. The article highlights the connectivity of system-wide wastes to 5M, which would help better understand the causes of the waste. Further, the paper discusses the connectivity of system-wide waste, 5M and P, D, A, R and C that would aid the organisation's overall performance. The practical and theoretical implications include a better understanding of waste types to help capture better data for waste reduction and productivity improvement. The operating managers could use the tracking of wastes to compare estimated and actual resources at every process stage. This article on system-wide waste, 5M and P, D, A, R and C, relationships and their effects can theorize that the construction industry is more likely to identify clear root causes of waste now than previously. The theoretical implications include enhanced understanding for academics on connectivity between waste, 5M and P, D, A, R and C that the academics can use and expand to provide new insights to existing knowledge.Originality/valueFor the first time, this article categorised and highlighted the ten types of waste in construction industries and the industries' connectivity to construction phases, 5M and impacting factors.
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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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