Dynamics of microplastics particles in rivers: experimental settling processes and numerical models of the transport and deposition

Barrantes, Lucrecia Isabel Alvarez

All Outputs (3)

Sediment transport in turbidity currents: internal structure and flow energetics (2025)
Thesis
Fukuda, S. (2025). Sediment transport in turbidity currents: internal structure and flow energetics. (Thesis). university of hull. https://hull-repository.worktribe.com/output/5087565

This project investigates the material-transport dynamics of natural-scale turbidity currents. The sediment-laden gravity-driven flows are a dominant control on the sediment transport between continents and deep marine systems. The resulting sediment... Read More about Sediment transport in turbidity currents: internal structure and flow energetics.

The Role of The Coriolis Force on Deep Marine Gravity Currents in Sinuous Channels (2024)
Thesis
Nilufan, X. The Role of The Coriolis Force on Deep Marine Gravity Currents in Sinuous Channels. (Thesis). University of Hull. https://hull-repository.worktribe.com/output/4564869

Gravity currents can be generated by density differences created by high suspended sediment concentrations in the form of turbidity currents, which can also transport significant volumes of near surface waters into the deep ocean. These flows are oft... Read More about The Role of The Coriolis Force on Deep Marine Gravity Currents in Sinuous Channels.

Dynamics of microplastics particles in rivers: experimental settling processes and numerical models of the transport and deposition (2023)
Thesis
Barrantes, L. I. A. Dynamics of microplastics particles in rivers: experimental settling processes and numerical models of the transport and deposition. (Thesis). University of Hull. https://hull-repository.worktribe.com/output/4367345

Microplastic pollution is an environmental problem facing rivers, oceans, and coastlines. Estimations suggest that around 1.15 to 12.7 million tonnes of plastic waste enter the ocean every year from the global riverine system. In the environment, org... Read More about Dynamics of microplastics particles in rivers: experimental settling processes and numerical models of the transport and deposition.