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液滴冲击作用下的微塑料颗粒飞溅机制OA

Splashing mechanism of microplastic particles under drop impact

中文摘要英文摘要

为揭示降雨对微塑料污染扩散的潜在作用机理,开展了液滴冲击微塑料颗粒层试验,利用高速摄影捕捉液滴冲击微塑料颗粒层后的流态,建立了流态分区图用以确定各流态之间的阈值,并分析了特征参数对液滴冲击后流态的影响.结果表明:液滴冲击微塑料颗粒层后的流态包括弹跳、铺展、冠状飞溅和快速飞溅;增大液滴雷诺数 Re0、韦伯数 We0、微塑料颗粒相对尺寸 D*或颗粒层相对厚度 h*能够促使流态从弹跳向铺展再向冠状或快速飞溅转变;基于 Buckingham π 定理提出了无量纲数 M=D*h*We0Re-2/50 用于识别各流态之间的阈值;液滴冲击对微塑料颗粒飞溅的作用机制包括前向碰撞和黏性携带,前者在各流态均存在,后者存在于弹跳、冠状和快速飞溅流态,相较于黏性携带,前向碰撞驱动更容易导致微塑料颗粒大范围传播.

To reveal the potential mechanism of rainfall on the diffusion of microplastic pollution,a drop impact experiment was conducted on the microplastic particle layer.High-speed photography was used to capture the flow regime after drop impact on the microplastic particle layer,and a flow zone map was established to determine the threshold between each flow regime.The influence of characteristic parameters on the flow regime after drop impact was also analyzed.The results indicate that the flow regime of drops after impacting the layer of microplastic particles includes bouncing,spreading,coronal splashing,and prompt splashing.Increasing the Reynolds number Re0,Weber number We0,relative size D* of microplastic particles,or relative thickness h* of particle layers can promote the transition of the flow regime from bouncing to spreading and then to coronal splashing or prompt splashing.A dimensionless number M=D*h*We0Re-2/50 is proposed based on Buckingham π theorem for identifying the threshold between different flow regimes.The mechanism of drop impact on the splashing of microplastic particles includes forward collision and viscous carrying.The former exists in all flow states,while the latter exists in bouncing,coronal,and prompt splashing flow states.Compared with viscous carrying,forward collision driving is more likely to cause large-scale propagation of microplastic particles.

钱尚拓;胡可;叶涵;苑敏;曾琴;董姝楠;冯建刚;徐辉

河海大学农业科学与工程学院河海大学农业科学与工程学院河海大学水利水电学院||宁波市奉化区水利局农村水利管理中心威海市水利事务服务中心河海大学水利水电学院河海大学农业科学与工程学院河海大学农业科学与工程学院河海大学农业科学与工程学院

降雨微塑料污染液滴冲击飞溅机制流态高速摄影

rainfallmicroplastic pollutiondrop impactsplashing mechanismflow regimehigh-speed photography

《水资源保护》 2026 (2)

250-258,9

国家自然科学基金项目(52279063)江苏省自然科学基金项目(BK20231462)中央高校基本科研业务费专项资金项目(B240201055)

10.3880/j.issn.1004-6933.2026.02.027

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