Surface detachment and bed entrainment of fluvial plastics

TL;DR

This paper develops a fundamental physics-based framework for understanding surface detachment and bed entrainment of fluvial plastics, aiming to improve modeling and mitigation strategies for plastic pollution in rivers.

Contribution

It introduces a novel relationship for critical surface detachment velocity and relates plastic Shields parameters to natural sediment parameters.

Findings

Derived a new relationship for critical surface detachment velocity.

Developed a framework linking plastic Shields parameters to sediment Shields parameters.

Anticipated to enhance plastic transport modeling and mitigation strategies.

Abstract

Over the last decade, fluvial plastics have been identified as major threat to aquatic environments and human health. In order to develop adequate mitigation strategies for plastic pollution, a fundamental process understanding of riverine plastic transport is of significant importance. In this context, the implementation of research findings into numerical simulation environments is anticipated to enhance modelling capabilities and to support a rigorous decision making. Recent experimental research has focused on the incipient motion of plastic particles, as well as on the effects of surface tension on plastic concentration profiles. While these investigations have advanced the state-of-the-art knowledge, current literature still displays a lack of basic insights into layer-specific plastic transport physics. In this study, first principles are applied to advance knowledge on free-surface detachment and bed entrainment of fluvial plastics. A novel relationship for the critical surface detachment velocity is derived, followed by the development of a framework that allows to relate plastic Shields parameters to those of natural sediments. Overall, it is anticipated that these developments will trigger new research within the plastics community, and it is hoped that present findings will be implemented into Lagrangian particle tracking software.