建筑信息模型(BIM)驱动的基于性能的施工,优化可持续和智能结构的发展

Q2 Environmental Science
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引用次数: 0

摘要

鉴于对气候变化和环境风险的担忧不断升级,建筑业面临着保证建筑物结构持久坚固的重要任务。建筑信息模型(BIM)已成为一种创新工具,可有效地应对这些挑战,并通过开发智能和可持续的结构来提高建筑结构过程的性能。通过文献综述、定量分析、探索性因子分析(EFA)、结构方程建模(SEM)和预测相关性研究结果,采用综合方法评估了 BIM 因素之间的关系及其对智能和可持续结构发展的影响。研究结果表明,BIM 的实施与智能和可持续结构发展不可或缺的要素之间存在正相关关系。本研究调查了 BIM 驱动的环境风险评估、BIM 支持的能源效率、环境性能、BIM 适应气候变化战略以及实时监控和维护对智能和可持续结构发展效果的影响。BIM 驱动的环境风险评估(B=0.360)对可持续智能结构发展有显著影响,其次是 BIM 的实时监测和维护(B=0.316)。本研究通过深入分析 BIM 在转变可持续和智能建筑实践方面的变革能力,提供了当代知识基础。研究结果为有志于提高任务效果和组织可持续环保建筑环境的企业专家提供了广泛的见解。从生态智能和可持续结构发展的角度来看,BIM 的日益普及对建筑行业的未来发展具有重要意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Building information modeling (BIM) driven performance-based construction for the optimization of sustainable and smart structures development

Given the escalating apprehensions regarding climate change and environmental risks, the construction industry is confronted with the crucial task of guaranteeing the enduring structural robustness of buildings. Building Information Modeling (BIM) has emerged as an innovative tool to tackle these challenges effectively and enhance the performance of building structures processes by developing intelligent and sustainable structures. A comprehensive methodology was utilized to assess the relationships between the BIM factors and their impacts on smart and sustainable structure development by conducting a literature overview, quantitative analysis, exploratory factorial analysis (EFA), structural equation modeling (SEM), and predictive relevance findings. The findings show positive correlations between the implementation of BIM and the elements integral to smart and sustainable structure development. This study investigates the effects of BIM-driven environmental risk assessment, BIM-enabled energy efficiency, environmental performance, climate change adaptation strategies with BIM, and real-time monitoring and maintenance on the effectiveness of smart and sustainable structures development. The BIM-driven environmental risk assessment significantly impacts the sustainable and smart structures development with B = 0.360, followed by the real-time monitoring and maintenance with BIM with 0.316. This study provides the contemporary knowledge base by providing insights into BIM's transformative abilities in shifting sustainable and smart construction practices. The outcomes offer widespread insights to enterprise specialists interested in enhancing task effects and organizing sustainable and environmentally aware built surroundings. The growing popularity of BIM has implications for the future growth of the construction industry in phrases of ecologically smart and sustainable structure development.

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来源期刊
Environmental Challenges
Environmental Challenges Environmental Science-Environmental Engineering
CiteScore
8.00
自引率
0.00%
发文量
249
审稿时长
8 weeks
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