Sustainable concrete Production: Incorporating recycled wastewater as a green building material

废水 耐久性 绿色建筑 环境科学 土木工程 废物管理 工程类 环境工程 计算机科学 建筑工程 数据库
作者
Abdullah M. Zeyad
出处
期刊:Construction and Building Materials [Elsevier BV]
卷期号:407: 133522-133522 被引量:55
标识
DOI:10.1016/j.conbuildmat.2023.133522
摘要

The present paper endeavors to examine the viability of utilizing recycled wastewater as a foundational component in the creation of eco-friendly concrete. This paper entails an in-depth analysis of the chemical and physical attributes inherent in recycled wastewater, with a particular focus on its potential as a substitute for conventional freshwater in the concrete mixing process. To address limitations observed in prior research and to achieve a more profound comprehension of recycled wastewater's performance within green concrete, this study conducts an exhaustive review of existing literature. Through a systematic evaluation, the study meticulously assesses the influence of recycled wastewater on diverse properties inherent to green concrete, encompassing pivotal factors like flexural and compressive strength, alongside durability properties. The outcomes drawn from this investigation accentuate the viability and efficacy of recycled wastewater as a feasible alternative to freshwater in the production of green concrete. Notably, this approach holds promise for ameliorating detrimental environmental impacts while concurrently reducing the cost burden associated with sustainable concrete fabrication. Nevertheless, a central message emerges concerning the necessity for vigilant monitoring and meticulous regulation of recycled wastewater's quality and composition. This requisite vigilance is aimed at ensuring its compatibility and appropriateness for integration into concrete formulations. By virtue of delivering a comprehensive and thorough analysis of recycled wastewater's effects on the production of green concrete, this study plays a pivotal role in bridging gaps in knowledge and advancing the boundaries of this field. The practical implications of these findings extend to the development of sustainable and ecologically mindful concrete structures, while also serving as a guiding light for future research endeavors in this pivotal domain.
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