Building information modeling (BIM) for lifecycle carbon emission: scientometric and scoping literature reviews

IF 3.5 Q3 GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY
Hanane Bouhmoud, D. Loudyi, S. Azhar
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引用次数: 1

Abstract

PurposeConsidering the world population, an additional 415.1 billion m2 of built floor will be needed by 2050, which could worsen the environmental impact of the construction industry that is responsible for one-third of global Carbon Emissions (CEs). Thus, the current construction practices need to be upgraded toward eco-friendly technologies. Building Information Modeling (BIM) proved a significant potential to enhance Building and Infrastructure (B&I) ecological performances. However, no previous study has evaluated the nexus between BIM and B&I CEs. This study aims to fill this gap by disclosing the research evolution and metrics and key concepts and tools associated with this nexus.Design/methodology/approachA mixed-method design was adopted based on scientometric and scoping reviews of 52 consistent peer-reviewed papers collected from 3 large scientific databases.FindingsThis study presented six research metrics and revealed that the nexus between BIM and CEs is a contemporary topic that involves seven main research themes. Moreover, it cast light on six key associated concepts: Life Cycle Assessment; Boundary limits; Building Life Cycle CE (BLCCE); Responsible sources for BLCCE; Green and integrated BIM; and sustainable buildings and related rating systems. Furthermore, it identified 56 nexus-related Information and Communication Technologies tools and 17 CE-coefficient databases and discussed their consistency.Originality/valueThis study will fill the knowledge gap by providing scholars, practitioners and decision-makers with a good grasp of the nexus between CEs and BIM and paving the path toward further research, strategies and technological solutions to decrease CEs of B&I sectors and their impacts on the climate change.
生命周期碳排放的建筑信息模型(BIM):科学计量和范围界定文献综述
考虑到世界人口,到2050年将需要额外的4151亿平方米的建筑地板,这可能会加剧占全球碳排放量(CEs)三分之一的建筑业对环境的影响。因此,目前的建筑实践需要向环保技术升级。建筑信息模型(BIM)被证明在提高建筑和基础设施(B&I)生态性能方面具有巨大潜力。然而,之前没有研究评估过BIM和B&I ce之间的关系。本研究旨在通过揭示与此联系相关的研究进展和指标以及关键概念和工具来填补这一空白。设计/方法学/方法采用混合方法设计,基于从3个大型科学数据库中收集的52篇一致的同行评议论文的科学计量学和范围审查。本研究提出了六个研究指标,并揭示了BIM和ce之间的关系是一个涉及七个主要研究主题的当代话题。此外,它还阐明了六个关键的相关概念:生命周期评估;边界的限制;建筑生命周期CE (BLCCE);城市文化中心的责任来源;绿色一体化BIM;以及可持续建筑和相关评级系统。此外,还确定了56个与nexus相关的信息和通信技术工具和17个ce系数数据库,并讨论了它们的一致性。原创性/价值本研究将填补知识空白,为学者、实践者和决策者提供一个很好的把握CEs和BIM之间的联系,并为进一步的研究、战略和技术解决方案铺平道路,以减少B&I部门的CEs及其对气候变化的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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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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