A Quantitative Relationship between Settling and Wettability for Weathered Microplastics in Aquatic Systems.

IF 10.8 1区环境科学与生态学 Q1 ENGINEERING, ENVIRONMENTAL

环境科学与技术 Pub Date : 2025-05-23 DOI:10.1021/acs.est.4c11053

Yi Liang,Jingyi Gu,Ketong Chen,Hong Zhou,Jiamin Peng,Tingting Cai,Pei Na,Chenlu Guo,Weilin Huang,Chen Yang,Zhi Dang

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引用次数: 0

Abstract

Settling plays a crucial role in determining the residence time, distribution, transport, and ultimate fate of microplastics (MPs) in aquatic environments. The settling dynamics of particles are influenced by their macroscale shape, mesoscale roundness, and microscale surface properties, along with ambient fluid flow conditions. Variations in the wettability of submillimeter MPs affect molecular interactions at the particle-water interface, altering the microscopic flow field and subsequently modifying drag forces during settling. This study examines the impact of wettability on the settling behavior of aged acrylonitrile butadiene styrene MPs by measuring their settling velocities and contact angles. It was shown that increased wettability promotes the settlement of the MPs. A drag model incorporating the Eötvös number─a dimensionless ratio of buoyancy energy to contact angle-derived surface energy─is developed to quantify the relationship between interfacial chemistry and hydrodynamic resistance. Unlike the conventional models, our model considers wettability as a key factor controlling the settling of MP particles. The model was validated using independently measured data and four sets of published data for the MPs. Results demonstrate that the model significantly improves the accuracy of the settling predictions for weathering spherical MPs. Additionally, by integrating the shape factor, it effectively accounts for the settling behavior of irregularly shaped MPs using published data sets. This improvement enhances predictability for MP transport pathways, helping assess MP accumulation zones and potential ecological risks in marine and freshwater systems.

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风化微塑料在水生系统中沉降与润湿性的定量关系

沉降在决定微塑料在水生环境中的停留时间、分布、运输和最终命运方面起着至关重要的作用。颗粒的沉降动力学受其宏观尺度形状、中尺度圆度和微观尺度表面特性以及周围流体流动条件的影响。亚毫米MPs润湿性的变化会影响颗粒-水界面的分子相互作用，改变微观流场，从而改变沉降过程中的阻力。本研究通过测定老化丙烯腈-丁二烯-苯乙烯MPs的沉降速度和接触角，考察了润湿性对其沉降行为的影响。结果表明，润湿性的增加促进了MPs的沉降。为了量化界面化学与水动力阻力之间的关系，建立了一个包含Eötvös数（浮力能与接触角产生的表面能的无因次比值）的阻力模型。与传统模型不同，我们的模型认为润湿性是控制MP颗粒沉降的关键因素。该模型使用独立测量数据和四组已发表的MPs数据进行验证。结果表明，该模型显著提高了风化球形MPs沉降预测的精度。此外，通过整合形状因子，它有效地解释了使用公开数据集的不规则形状MPs的沉降行为。这一改进提高了对多聚物运输途径的可预测性，有助于评估海洋和淡水系统中多聚物的积累区和潜在的生态风险。

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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来源期刊

环境科学与技术环境科学-工程：环境

CiteScore

17.50

自引率

9.60%

发文量

12359

审稿时长

2.8 months

期刊介绍： Environmental Science & Technology (ES&T) is a co-sponsored academic and technical magazine by the Hubei Provincial Environmental Protection Bureau and the Hubei Provincial Academy of Environmental Sciences. Environmental Science & Technology (ES&T) holds the status of Chinese core journals, scientific papers source journals of China, Chinese Science Citation Database source journals, and Chinese Academic Journal Comprehensive Evaluation Database source journals. This publication focuses on the academic field of environmental protection, featuring articles related to environmental protection and technical advancements.