混凝去除微塑料:优化反应条件和机理综述

Muhammad Tariq Khan, Mushtaq Ahmad, Md Faysal Hossain, Asim Nawab, Iqbal Ahmad, Khalil Ahmad, Sirima Panyametheekul
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引用次数: 0

摘要

混凝法是一种广泛应用于去除水和废水中悬浮颗粒的技术,近年来作为去除微塑料的一种流行方法受到了广泛的关注。基于凝固去除MPs的研究还处于起步阶段,关于这种治疗方法、机制和去除效率的研究很少。鉴于这些空白,本研究旨在全面研究通过凝血去除MPs的最新进展。各种实验因素的影响,如混凝剂的类型,混凝剂的剂量,溶液的pH值,和形状的MPs严格审查。研究结果表明,优化混凝过程中的环境条件对于提高MPs的去除率和降低能源成本至关重要。研究结果表明,MPs的混凝效率取决于最佳反应条件,根据MPs的类型和浓度以及所处理的水或废水的特性,最佳反应条件可能会有所不同。因此,优化这些反应条件对于实现最大的去除效率至关重要。需要更广泛的研究来揭示混凝在控制絮凝体密度和去除出水污染物方面的机制。因此,目前的审查旨在强调与废水处理过程中去除MPs的混凝技术相关的差距和挑战。目前生物基混凝剂的合成和化学改性及其去除MPs的混凝性能的进展可能构成生态系统保护和可持续性的范式转变。建议采用生态友好型混凝剂,并与其他混凝技术相结合,以提高该方法的有效性和可行性。本文的综述将为现场研究人员提供重要的见解,指导他们未来的研究,并有助于知识的进步。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Microplastic removal by coagulation: a review of optimizing the reaction conditions and mechanisms
Coagulation is a widely employed technique for removing suspended particles from water and wastewater, and recently, it has gotten attention as a popular method for the removal of microplastics (MPs). Studies on coagulation-based removal of MPs are still in their infancy, and few findings are available about this treatment approach, its mechanism, and removal efficiency. Given these gaps, this study was designed to comprehensively investigate recent advances in the removal of MPs via coagulation. The influence of various experimental factors such as coagulant type, dose of the coagulant, pH of the solution, and shape of the MPs are critically reviewed. The study findings showed that optimizing environmental conditions during the coagulation process is crucial for improving the removal of MPs and reducing energy costs. The study findings showed that the coagulation efficiency of MPs depends on optimal reaction conditions, which may vary depending on the type and concentration of MPs and the characteristics of the water or wastewater being treated. Optimizing these reaction conditions is, therefore, critical to achieving maximum removal efficiency. More extensive research is required to reveal the mechanisms of coagulation in controlling floc density and removing pollutants from effluent. Consequently, the current review aims to highlight the gaps and challenges associated with coagulation techniques for the removal of MPs during wastewater treatment. Current advancements in the synthesis and chemical modification of bio-based coagulants and their coagulation performance for the removal of MPs could constitute a paradigm shift in ecosystem protection and sustainability. The use of eco-friendly coagulants and combining coagulation with other techniques are suggested to increase the efficacy and viability of this method. This review will provide significant insights for field researchers, guiding their future investigations and contributing to the advancement of knowledge.
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