We can't find the internet
Attempting to reconnect
Something went wrong!
Hang in there while we get back on track
Effects of microplastics on the rheological properties of sediment slurries in aquatic environments
Summary
Microplastics altered the rheological properties of cohesive sediment slurries in aquatic environments, reducing viscosity at low concentrations and modifying flow dynamics, with implications for understanding how microplastic-laden sediment slurries transport and deposit these contaminants.
Sediment slurries, characterized by their high concentrations of fine-grained cohesive sediment, are prevalent in various aquatic environments, including fluid mud, sediment gravity flows, and dredging slurries. Abundant microplastics have been detected in sediment slurries, which indicates that these slurries function as carriers for the transport of microplastics. However, there is a dearth of understanding on how sediment slurries transport microplastics. To ascertain the transport mechanisms, elucidating the effects of microplastics on the rheological properties of sediment slurries is a prerequisite because these properties govern the flow dynamics and mobility of such slurries. This study conducts experimental and theoretical investigations to examine, interpret, and quantify the effects of microplastics on the rheological properties of sediment slurries. Microplastics are shown to increase the yield stress and viscosity of sediment slurries via enhancing sediment aggregation. A new descriptor, specifically, the effective volume fraction, is proposed to characterize the effects of microplastics on sediment aggregation. Based on the newly-proposed descriptor, a new analytical model is proposed to predict the yield stress and viscosity of sediment slurries with microplastics. This study lays a foundation for further interpretating the flow dynamics and thus the transport processes of sediment slurries laden with microplastics.
Sign in to start a discussion.
More Papers Like This
Impacts of microplastic concentrations and sizes on the rheology properties of lake sediments
Researchers studied how microplastic concentration and size affect the rheological properties of lake sediments, finding that 0.5-2 percent microplastic content decreased sediment viscosity and yield stress by up to 38 percent compared to controls. Smaller particles had greater effects on sediment flow behavior than larger ones.
Impacts of microplastic contamination on the rheology properties of sediments in a eutrophic shallow lake
Researchers assessed the impact of microplastic contamination on the rheological properties of sediments in a eutrophic shallow lake, examining how plastic particles alter erosion resistance and sediment mechanics. Results indicated that microplastic accumulation measurably changes the physical behavior of lake sediments.
Flocculation and its impact on microplastic transport mechanisms in rivers
Researchers used rotating wheel laboratory experiments to investigate microplastic-sediment flocculation mechanisms in rivers, finding that fine cohesive sediments adhere to MP particles to form aggregates that modify transport behaviour and enhance deposition, contributing to MP accumulation in riverine sedimentary deposits.
Behaviour and transport of microplastics under saturated flow conditions in sediments and soils
Researchers investigated the behaviour and transport of microplastics under saturated flow conditions in sediments and soils, examining how particle properties influence movement through porous media. The study aimed to improve understanding of subsurface microplastic fate and transport relevant to both soil and groundwater contamination.
Suspended sediments mediate microplastic sedimentation in unidirectional flows
Researchers found that suspended sediments in water significantly increase microplastic sedimentation rates, with higher sediment concentrations driving greater downward transport of microplastics and creating differential settling patterns based on polymer type.