Development of low-carbon recycled aggregate concrete using carbonation treatment and alccofine

IF 3.9 4区 环境科学与生态学 Q2 ENVIRONMENTAL SCIENCES Energy, Ecology and Environment Pub Date : 2023-11-14 DOI:10.1007/s40974-023-00299-0
Himanshu Sharma, Deepankar Kumar Ashish, Sanjay Kumar Sharma
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Abstract

Abstract Since the construction industry is one of the major sectors responsible for the overexploitation of natural resources and the production of greenhouse gases, there is an urgent need to adopt a sustainable and environmental friendly approach to mitigate climate degradation. Research has explored the potential of recycled aggregate (RA) as a viable alternative to natural aggregate in concrete production. Currently, several treatment methods are being employed to enhance the efficient incorporation of RA into concrete, aiming to address this issue. However, the effective utilization of RA in place of NA remains uncommon. In this study, an effort has been made to develop a low-carbon recycled aggregate concrete by utilizing 100% carbonation treated recycled coarse concrete aggregate (CRCCA) in place of natural coarse aggregate (NCA) and alccofine as mineral admixture. A comprehensive analysis was performed, comparing the properties of CRCCA to those of untreated recycled coarse concrete aggregate. This analysis covered changes in weight, bulk density, water absorption, crushing value, and microstructure. Furthermore, five different concrete mixes were prepared, each varying in the proportion of natural coarse aggregate (NCA), untreated RCCA, and CRCCA. These mixes also incorporated alccofine as a mineral admixture. The evaluation process involved assessing the effectiveness of carbonation treatment and alccofine addition through tests on the workability, water absorption, density, and compressive strength of the concrete mixes. The study demonstrated that carbonation treatment of RCCA resulted in substantial improvements in crushing value and water absorption of CRCCA, alongside enhanced workability, reduced water absorption, and increased density in CRCCA concrete. Moreover, CRCCA concrete exhibited notable compressive strength gains at both 28 and 90 days compared to untreated RCCA concrete. Furthermore, the use of CRCCA and alccofine contributed to reducing GHG emissions associated with cement production, emphasizing the environmentally friendly attributes of this low-carbon concrete formulation.
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碳化处理和乙醇化低碳再生骨料混凝土的开发
由于建筑业是过度开发自然资源和产生温室气体的主要部门之一,因此迫切需要采取可持续和环境友好的方式来减缓气候退化。研究探索了再生骨料(RA)作为混凝土生产中天然骨料的可行替代品的潜力。目前,为了解决这一问题,人们正在采用几种处理方法来提高RA在混凝土中的有效掺入。然而,有效地利用RA来代替NA仍然不常见。在本研究中,通过使用100%碳化处理的再生粗混凝土骨料(CRCCA)代替天然粗骨料(NCA)和乙醇精作为矿物外加剂,努力开发低碳再生骨料混凝土。进行了综合分析,比较了CRCCA与未经处理的再生粗混凝土骨料的性能。该分析涵盖了重量、体积密度、吸水率、破碎值和微观结构的变化。此外,制备了五种不同的混凝土混合料,每种混合料的天然粗骨料(NCA)、未经处理的RCCA和CRCCA的比例不同。这些混合物还加入了乙醇作为矿物混合物。评估过程包括通过测试混凝土混合物的和易性、吸水率、密度和抗压强度来评估碳化处理和添加乙醇的有效性。研究表明,碳化处理显著改善了CRCCA的破碎值和吸水率,同时提高了CRCCA混凝土的和易性,降低了吸水率,增加了混凝土的密度。此外,与未处理的RCCA混凝土相比,CRCCA混凝土在28天和90天的抗压强度均有显著提高。此外,CRCCA和乙醇的使用有助于减少与水泥生产相关的温室气体排放,强调了这种低碳混凝土配方的环保特性。
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来源期刊
CiteScore
9.80
自引率
0.00%
发文量
26
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