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Photoaged tire wear particles hinder the transport of Pb(II) in urban soils under acid rain: Experimental and numerical investigations
Water Research ( IF 11.4 ) Pub Date : 2024-09-07 , DOI: 10.1016/j.watres.2024.122410 Enjie Li 1 , Jinhui Huang 1 , Hanbo Yu 2 , Si Liu 1 , Wenjuan He 1 , Wei Zhang 1 , Haoliang Pang 1 , Chenyu Zhang 1
Water Research ( IF 11.4 ) Pub Date : 2024-09-07 , DOI: 10.1016/j.watres.2024.122410 Enjie Li 1 , Jinhui Huang 1 , Hanbo Yu 2 , Si Liu 1 , Wenjuan He 1 , Wei Zhang 1 , Haoliang Pang 1 , Chenyu Zhang 1
Affiliation
Rapid urbanization brought lots of serious environmental contamination, including the accumulation of heavy metals, acid rain, and the emission of tire wear particles (TWPs), with detrimental effects for terrestrial ecosystems. Nevertheless, how naturally aged TWPs affect the mobilization of heavy metals in soils under acid rain is still unclear. Here, we investigate the adsorption and transport mechanisms of Pb(II) co-existing with acid rainwater in soil-TWP mixtures via batch experiments, column experiments and modeling. Results showed that photoaged TWP significantly prolonged the Pb(II) adsorption equilibrium time (1 to 16 h) and enhanced the Pb(II) adsorption capacity of soils. Soil column profiles confirmed that TWP effectively boosted the initial accumulation of lead in the topsoil and thus impeded the downward transport of lead. The retardation factor (R) estimated by the linear two-site sorption model (TSM) fitting the Pb(II) breakthrough curves gradually increased from 1.098 to 16.38 in soils with TWP (0–10 %). Comparative results of linear or nonlinear TSM suggested nonlinear sorption replacing linear sorption as the main Pb(II) sorption mechanism under 1 % and 10 % TWP. This research provides significant insights into the implications of TWP on the Pb(II) retention behaviors and highlights the severer potential remobilization risks of Pb(II) in urban soils under different acid rain environments.
更新日期:2024-09-07
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