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水动力介导下微塑料对抗生素的吸附解吸行为研究OA

Study on adsorption and desorption behaviors of microplastics toward antibiotics mediated by hydrodynamic conditions

中文摘要英文摘要

[目的]为探究水动力条件下聚乙烯微塑料(PE)与四种抗生素(SDZ、SMX、NOF、OFL)的吸附-解吸行为及其环境风险,[方法]采用横向振荡格栅水槽模拟真实水体环境,通过吸附解吸试验分析PE对抗生素的吸附、解吸特性,并考察微塑料浓度与紊动强度对吸附过程的影响.[结果]吸附过程40 h达到平衡,动力学模型拟合结果表明吸附过程以化学吸附为主且受内外扩散共同控制,而解吸过程以物理解吸主导.PE浓度增加使单位吸附量最终降低约30%;紊动强度的逐渐增强使吸附量最终提升10%左右.[结论]PE浓度以及水体紊动强度对PE吸附能力均有影响:高PE浓度引发颗粒聚集从而降低吸附效率,强紊动条件通过加速分子扩散和分散颗粒提升吸附量.解吸过程存在潜在化学作用,可能增强抗生素的环境迁移风险.研究揭示了水动力条件下PE作为抗生素载体的双重作用机制,为评估复合污染生态风险提供理论依据.

[Objective]To investigate the adsorption and desorption behaviors and associated environmental risks of polyethylene(PE)microplastics toward four antibiotics(SDZ,SMX,NOF,OFL)under hydrodynamic conditions.[Methods]A horizontal oscillating grid tank was employed to simulate actual aquatic environments.Adsorption-desorption experiments were performed to analyze the adsorption and desorption characteristics of PE toward antibiotics.Additionally,the effects of microplastic concentration and turbulence intensity on the adsorption process were examined.[Results]The adsorption process reached equilibrium after 40 hours.Kinetic model fitting result indicated that the adsorption was mainly governed by chemisorption and jointly controlled by internal and external diffusion,while the desorption process was dominated by physical desorption.An increase in PE concentration ultimately reduced the unit adsorption capacity by about 30%,and a gradual increase in turbulence intensity led to an approximate 10%increase in adsorption capacity.[Conclusion]Both PE concentration and hydrodynamic turbulence intensity affect the adsorption capacity of PE:High PE concentration leads to particle aggregation,thereby reducing adsorption efficiency.Strong turbulence conditions enhance adsorption by accelerating molecular diffusion and particle dispersion.The desorption process exhibits potential chemical interactions,which may increase the environmental transfer risk of antibiotics.The dual role mechanism of PE as a carrier of antibiotics under hydrodynamic conditions is revealed,providing a theoretical basis for assessing the ecological risks of combined pollution.

刘洪涛;祖波;李旺;陈魏;王梅;张中杰;陈馨;李浩闻

重庆交通大学河海学院,重庆 400074重庆交通大学河海学院,重庆 400074重庆交通大学河海学院,重庆 400074招商局生态环保科技有限公司,重庆 400067招商局生态环保科技有限公司,重庆 400067招商局生态环保科技有限公司,重庆 400067招商局生态环保科技有限公司,重庆 400067招商局生态环保科技有限公司,重庆 400067

资源环境

微塑料抗生素水动力条件吸附解吸影响因素

microplasticsantibioticshydrodynamic conditionsadsorptiondesorptioninfluencing factors

《水利水电技术(中英文)》 2026 (3)

17-26,10

重庆市水利科技重点项目(CQSLK-2023005)招商局生态环保科技有限公司科技自主创新项目(240128)国家自然科学基金青年基金项目(44207540)

10.13928/j.cnki.wrahe.2026.03.002

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