关于用于灰水处理和回用的建构湿地的最新综述(2019-2023 年

Q2 Environmental Science Environmental Challenges Pub Date : 2024-07-02 DOI:10.1016/j.envc.2024.100973
Joice Santos , Sara Rodrigues , Marcelo Magalhães , Kelly Rodrigues , Luciana Pereira , Glória Marinho
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引用次数: 0

摘要

面对日益严重的水资源短缺问题,中水回用的潜力十分突出,但需要进行有效处理,以去除有机物、病原体、表面活性剂和悬浮固体。构筑湿地(CW)是一种可持续的分散式技术,在这方面的应用日益突出。它们在废水处理方面被公认为成本低、简单有效,产生的污水符合再利用的质量标准。尽管它们具有诸多优势,但仍有必要深入了解影响其性能和效率的因素。本综述旨在通过系统分析当前有关化学武器技术的研究,确定影响其应用和改进潜力的关键变量,从而填补这一空白。本综述采用多标准决策方法(Methodi Ordinatio)对 2019-2023 年期间进行了系统综述。检索数据库为 Science direct、Web of science 和 Scopus。这种方法涉及选择科学文章的结构过程,最终形成近期研究的书目组合。最初的搜索产生了 291 个检索标题,通过多标准选择,选出了 48 项研究进行深入分析。通过现有研究,可以评估化学武器系统的应用方式。综述强调了化武系统的应用方式、基质类型、植物和操作标准的影响,这些都是影响技术性能的主要因素。本综述还重点介绍了建筑垃圾和生物炭作为基质的日益广泛的应用,它们在提高化武效率方面已显示出良好的前景。尽管文章重点关注中水 "回用 "问题,但在文章选择方面,我们发现几乎没有涉及这一主题,这表明有关化学武器在中水回用方面应用的研究仍然不足。本综述对化武技术进行了最先进的综述,就具体的设计和操作选择如何影响系统的有效性提供了宝贵的见解。它为提高化学武器在可持续废水管理中的效率和应用提供了有价值的资源。
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A state-of-the-art review (2019–2023) on constructed wetlands for greywater treatment and reuse

Faced with increasing water scarcity, the potential of greywater reuse stands out, but requires effective treatment of to remove organic matter, pathogens, surfactants, and suspended solids. Constructed Wetlands (CW) are sustainable and decentralized technologies gaining increasing prominence for this propose. They are recognized for their low-cost, simplicity, and effectiveness in wastewater treatment, producing effluents that meet quality standards for reuse. Despite their advantages, there is a need for a deeper understanding of the factors that influence their performance and efficiency. This review aims to fill this gap by systematically analyzing the current research on CW technology, identifying key variables that affect its application and potential for improvement. A systematic review considering the period 2019–2023 was carried out using Methodi Ordinatio, a multicriteria decision-making methodology. The search databases were Science direct, Web of science and Scopus. This approach involves structures process for selecting scientific articles, resulting in a bibliographic portfolio of recent studies,. The initial search yielded 291 retrieved titles, and through multicriteria selection, 48 studies were chosen for in-depth analysis. Existing studies allowed to evaluate the ways in which CW systems are applied. The review highlights how CW systems are applied, the influence of substrates type, plants, and operational criteria which emerged as the primary factors influencing the technology's performance. This review also highlights the growing use of construction waste and biochar as substrates, which have shown promise in enhancing CW efficiency. Despite the focus on greywater "reuse", for articles selection, it was observed that the topic was scarcely addressed, thus suggesting that studies on CW application for greywater water reuse remains underexplored. This review provides a state-of-the-art synthesis of CW technology, offering valuable insights into how specific design and operational choices impact system effectiveness. It serves as a worthwhile resource for enhancing the efficiency and application of CW in sustainable wastewater management.

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来源期刊
Environmental Challenges
Environmental Challenges Environmental Science-Environmental Engineering
CiteScore
8.00
自引率
0.00%
发文量
249
审稿时长
8 weeks
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