Settling Velocities of Tire and Road Wear Particles: Analyzing Finely Graded Density Fractions of Samples from a Road Simulator and a Highway Tunnel

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 : 2025-06-18 DOI:10.1021/acs.est.5c04165

Stefan Dittmar, Steffen Weyrauch, Thorsten Reemtsma, Paul Eisentraut, Korinna Altmann, Aki S. Ruhl, Martin Jekel

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Abstract

The terminal settling velocity is considered the most critical parameter determining the transport of tire and road wear particles (TRWP) in aquatic environments. Nonetheless, no respective empirical data has been reported so far. In this study, particle samples from a road simulator and a highway tunnel were investigated with a validated imaging method. Different density and size fractions of both samples were measured separately, acquiring sizes and settling velocities of more than 30,000 individual particles. In addition, tire marker polymers were analyzed for each fraction via thermal extraction desorption-gas chromatography/mass spectrometry. Finally, the acquired particle data was combined according to the fractions’ estimated tire contents in order to deduce detailed probability distributions of particle size and settling velocity for the actual TRWP from both samples. Weighted by TRWP-incorporated tire mass, median diameters of 54 and 44 μm as well as median settling velocities of 0.65 and 0.22 mm/s were found for TRWP from the road simulator and highway tunnel, respectively. This study thus provides the first ever empirical data on TRWP settling velocities in water, which can be highly valuable input for modeling the environmental transport of TRWP and for dimensioning TRWP retention systems.

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轮胎和道路磨损颗粒的沉降速度：分析公路模拟器和公路隧道样品的精细分级密度分数

终端沉降速度被认为是决定轮胎和道路磨损颗粒（TRWP）在水生环境中运移的最关键参数。然而，到目前为止还没有相应的经验数据报告。在本研究中，采用一种经过验证的成像方法对道路模拟器和公路隧道的颗粒样本进行了研究。分别测量了两种样品的不同密度和尺寸分数，获得了超过30,000个单个颗粒的尺寸和沉降速度。此外，轮胎标记聚合物通过热萃取解吸-气相色谱/质谱分析每个部分。最后，将收集到的颗粒数据与估算的轮胎含量相结合，以推导出两个样本中实际TRWP的颗粒大小和沉降速度的详细概率分布。以掺入TRWP的轮胎质量为权重，模拟路面和公路隧道中TRWP的中位直径分别为54 μm和44 μm，沉降速度分别为0.65和0.22 mm/s。因此，该研究首次提供了TRWP在水中沉降速度的经验数据，这对于模拟TRWP的环境迁移和确定TRWP保留系统的尺寸具有很高的价值。

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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.