Bio-based and nature inspired solutions: A step toward carbon-neutral economy

Mohammadjavad Kazemi , Hainian Wang , Elham Fini
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引用次数: 4

Abstract

Bio-based and nature-inspired solutions have been investigated recently to develop sustainable, resilient, and durable construction including but not limited to roadway infrastructures. This paper reviews state-of-the-art studies on self-healing, self-cleaning and self-rejuvenating asphalt, and concrete construction. This review draws three conclusions. (1) Self-healing construction materials have the potential to significantly extend the service life of construction elements. Urban and industrial wastes such as food waste, biomass, metals have been used to create self-healing construction materials that are more environmentally friendly. (2) Self-cleaning construction materials not only remove pollution by repelling water on their superhydrophobic surface, but also cut building and infrastructure maintenance costs, while improving cities' air quality by degrading pollutants such as NOx. Pavement engineers have exploited self-cleaning characteristic to facilitate the de-icing of pavements and lengthening the service life of pavements. (3) Self-rejuvenating materials including bio-oils can revitalize materials and delay aging; bio-oils can also be used to make bio-binders, thereby reducing the need for petroleum-based binders. The optimum concentration of bio-oil for asphalt modification depends on the chemical structure of oils. Still, regardless of dosage, self-rejuvenating binders improve asphalt workability and performance at low temperatures and increase the resistance of the asphalt mix to fatigue and cracking. This review also identified critical research gaps, including (1) the lack of a reliable, unified, and standard method to accurately measure construction materials’ self-healing, self-cleaning and self-rejuvenating properties; (2) the lack of long-term field performance data to conduct comprehensive life cycle assessment and life cycle analysis; (3) the lack of accurate technoeconomic analysis to facilitate market entry of abovementioned solutions. Addressing these gaps and determining contribution of nature-inspired and bio-based technologies to a carbon neutral economy along with issuing carbon certificates can facilitate the widespread application of these technologies while promoting resource conservation and sustainability.

基于生物和自然灵感的解决方案:迈向碳中和经济的一步
最近,人们研究了基于生物和自然的解决方案,以开发可持续、有弹性和耐用的建筑,包括但不限于道路基础设施。本文综述了自修复、自清洁和自再生沥青和混凝土施工的最新研究进展。这篇综述得出了三个结论。(1)自愈性建筑材料具有显著延长建筑构件使用寿命的潜力。城市和工业废物,如食物垃圾、生物质、金属,已被用来制造更环保的自修复建筑材料。(2)自洁建筑材料不仅可以通过其超疏水表面的疏水性去除污染,还可以降低建筑和基础设施的维护成本,同时通过降解氮氧化物等污染物来改善城市空气质量。路面工程人员利用自洁特性来促进路面除冰,延长路面使用寿命。(3)包括生物油在内的自嫩材料,能使材料焕发活力,延缓衰老;生物油也可以用来制造生物粘合剂,从而减少了对石油基粘合剂的需求。生物油用于沥青改性的最佳浓度取决于油的化学结构。尽管如此,无论用量如何,自再生粘合剂都能改善沥青在低温下的和易性和性能,并提高沥青混合料的抗疲劳和抗开裂性。本综述还指出了关键的研究空白,包括:(1)缺乏可靠、统一和标准的方法来准确测量建筑材料的自修复、自清洁和自再生性能;(2)缺乏长期的现场性能数据进行全面的生命周期评估和生命周期分析;(3)缺乏准确的技术经济分析,以促进上述解决方案的市场进入。解决这些差距,确定受自然启发和基于生物的技术对碳中和经济的贡献,同时颁发碳证书,可以促进这些技术的广泛应用,同时促进资源保护和可持续性。
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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