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Environmental Assessment of Ultra-High-Performance Concrete Using Carbon Material and Water Footprint

机译：利用碳材料和水足迹对超高性能混凝土进行环境评估

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摘要

There is a common understanding that the environmental impacts of construction materials should be significantly reduced. This article provides a comprehensive environmental assessment within Life Cycle Assessment (LCA) boundaries for Ultra-High-Performance Concrete (UHPC) in comparison with Conventional Concrete (CC), in terms of carbon, material, and water footprint. Environmental impacts are determined for the cradle-to-grave life cycle of the UHPC, considering precast and ready-mix concrete. The LCA shows that UHPC has higher environmental impacts per m³. When the functionality of UHPC is considered, at case study level, two design options of a bridge are tested, which use either totally CC (CC design) or CC enhanced with UHPC (UHPC design). The results show that the UHPC design could provide a reduction of 14%, 27%, and 43% of carbon, material, and water footprint, respectively.

机译：人们普遍认为应大大减少建筑材料对环境的影响。与常规混凝土（CC）相比，本文在碳，材料和水足迹方面提供了超高性能混凝土（UHPC）生命周期评估（LCA）范围内的全面环境评估。考虑到预制混凝土和预拌混凝土，确定了UHPC从摇篮到坟墓生命周期的环境影响。 LCA表明，UHPC每m ^{3 对环境的影响更大。考虑到UHPC的功能时，在案例研究级别上，将测试桥的两个设计选项，它们全部使用CC（CC设计）或使用UHPC增强的CC（UHPC设计）。结果表明，UHPC设计可以分别减少14％，27％和43％的碳，材料和水足迹。}

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期刊名称 Materials
作者
Husam Sameer; Viktoria Weber; Clemens Mostert; Stefan Bringezu; Ekkehard Fehling; Alexander Wetzel;
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作者单位

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年(卷),期 2019(12),6
年度 2019
页码 851
总页数 31
原文格式 PDF
正文语种
中图分类外科学;
关键词
sustainable buildings life cycle assessment construction materials concrete durability;

机译：可持续建筑;生命周期评估;建筑材料;混凝土;耐久性;

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7. Environmental Assessment of Ultra-High-Performance Concrete Using Carbon, Material, and Water Footprint [O] . Husam Sameer, Viktoria Weber, Clemens Mostert, 2019

机译：使用碳，材料和水脚印对超高性能混凝土的环境评估

Environmental Assessment of Ultra-High-Performance Concrete Using Carbon Material and Water Footprint

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