建筑业中的电子废物:文献计量分析与综述

Vineet Kumar, Deepak Kumar Verma
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引用次数: 0

摘要

目的全球建筑行业面临着电子垃圾(e-waste)带来的挑战和机遇。本研究旨在对混凝土建筑材料中的电子垃圾进行文献计量分析和全面的文献评估。本研究研究了 4122 篇 Scopus 文献,以考察不同国家的垃圾产生情况,以及将电子垃圾作为一种可持续战略融入建筑业的创新方法。本研究列出了知名研究人员及其合作网络,展示了一个强大而充满活力的领域,尤其是在 2018 年至 2022 年期间,该领域的研究成果将激增。研究结果研究结果表明,电子垃圾可以改善建筑材料的机械特性和可持续性。电子垃圾对环境、生命周期和经济的影响引起了科学界的兴趣。该领域在改进电子废物材料的使用、开发复杂的预测模型、研究环境影响、经济分析、政策制定、新型建筑方法、全球合作和提高公众意识方面具有巨大潜力。这项研究表明,电子废物可用于可持续建筑。它强调了这一领域对研究和创新的需求。研究局限性/影响研究结果强调了持续研究和创新在利用电子垃圾进行可持续建筑实践中的关键作用。这项研究为将电子垃圾纳入建筑业奠定了基础,有助于促进循环经济和环境可持续性。社会影响将电子垃圾纳入建筑业的社会影响十分重大。利用电子废弃物不仅能解决环境问题,还能在回收和建筑行业创造新的就业机会,从而促进社会的可持续发展。它还促进了社区对可持续实践和废物管理的认识和责任。此外,这种方法还可以降低建筑成本,使建筑项目更容易实施,并有可能降低住房价格。原创性/价值这项研究通过对混凝土建筑材料中的电子废物进行文献计量分析和全面评估,突出了其全球意义,从而为该领域做出了贡献。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
e-Waste in construction: a comprehensive bibliometric analysis and review of the literature
Purpose The global construction industry faces both challenges and opportunities from electronic waste (e-waste). This study aims to present a bibliometric analysis and comprehensive literature assessment on e-waste in concrete construction materials. Design/methodology/approach This study studies 4,122 Scopus documents to examine garbage generation in different countries and inventive ways to integrate e-waste into construction as a sustainable strategy. This study lists famous researchers and their cooperation networks, demonstrating a robust and dynamic area with a surge in research output, notably from 2018 to 2022. Data is visually represented using VOS Viewer to show trends, patterns and study interests throughout time. Findings The findings imply that e-waste can improve construction materials’ mechanical characteristics and sustainability. The results are inconsistent and suggest further optimization. e-Waste into construction has garnered scientific interest for its environmental, life cycle, and economic impacts. This field has great potential for improving e-waste material use, developing sophisticated prediction models, studying environmental implications, economic analysis, policy formulation, novel construction methods, global cooperation and public awareness. This study shows that e-waste can be used in sustainable building. It stresses this area’s need for research and innovation. This lays the groundwork for using electronic trash in buildings, which promotes a circular economy and environmental sustainability. Research limitations/implications The findings underscore the critical role of ongoing research and innovation in leveraging e-waste for sustainable building practices. This study lays the groundwork for integrating e-waste into construction, contributing to the advancement of a circular economy and environmental sustainability. Social implications The social implications of integrating e-waste into construction are significant. Using e-waste not only addresses environmental concerns but also promotes social sustainability by creating new job opportunities in the recycling and construction sectors. It fosters community awareness and responsibility towards sustainable practices and waste management. Additionally, this approach can reduce construction costs, making building projects more accessible and potentially lowering housing prices. Originality/value This research contributes to the field by offering a bibliometric analysis and comprehensive assessment of e-waste in concrete construction materials, highlighting its global significance.
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