通过生命周期评估比较大规模木结构和 RC 结构的可持续性

Yung-ching Chan
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引用次数: 0

摘要

自 18 世纪工业革命以来,高层建筑在应对城市化挑战方面发挥了至关重要的作用,一直是城市生活的主要解决方案。然而,这种建筑的进步也造成了环境的恶化。目前,钢筋和混凝土是高层建筑的主要材料,其碳排放量之大有目共睹。本文深入探讨了木材作为高层建筑环保替代材料的潜力,以解决这些环境问题。此外,本文还探讨了这些结构对土地负荷的影响。本文对生命周期评估(LCA)研究进行了全面回顾,并对木材与钢筋混凝土(RC)等传统材料对气候变化的影响进行了比较分析,强调了在城市垂直扩张过程中实现可持续发展的迫切需要。研究结果表明,与钢筋混凝土结构相比,高层木结构的质量和碳排放量可减少约一半。本文旨在强调木材与传统钢筋混凝土方法相比的优势,从而为有利于可持续城市发展的材料选择提供参考。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Comparison of mass timber structure and RC structure with regard to sustainability by life cycle assessment
Since the 18th-century Industrial Revolution, high-rise have played a crucial role in addressing urbanization challenges, remaining a primary solution for urban living. However, this architectural advancement has also contributed to environmental decline. Presently, steel and concrete stand out as the predominant materials for high-rise construction, with well-documented significant carbon emissions. This paper delves into the potential of timber as an environmentally friendly alternative in high-rise construction to address such environmental concerns. Furthermore, it examines the impact of these structures on land load. The paper conducts a comprehensive review of life cycle assessment (LCA) studies and offers a comparative analysis of the climate change impacts associated with timber versus conventional materials like reinforced concrete (RC), underscoring the urgent need for sustainable development in the vertical expansion of our cities. The findings demonstrate that both the mass and carbon emissions of high-rise timber structures, in comparison to RC structures, can be reduced by approximately half. The paper aims to underscore the benefits of timber in comparison to conventional reinforced concrete methods, thereby informing material selection in favor of sustainable urban development.
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