Numerical modeling of sediment transport in hydropower reservoirs has emerged as a crucial field of study in water resources engineering. This multidisciplinary approach combines computational fluid ...

In this study, we present a numerical model for predicting sediment transport and the associated erosion and deposition processes in a natural reef area. The prediction system consists of several ...

A high resolution (300-400 m grid spacing), process oriented modeling study was undertaken to elucidate the physical processes affecting the characteristics and distribution of sea-floor sedimentary ...

The Ganges-Brahmaputra-Meghna (GBM) rivers carry a massive sediment load that feeds the world’s largest depositional system: the GBM megadelta. The mass of sediment transported annually by the GBM ...

The U.S. Army Corps of Engineers is well-known for maintenance dredging within the Great Lakes to support navigability and commerce. Tributaries connected to the lakes contribute to increased sediment ...

Obtaining quantitative sediment transport information, such as transport rates, virtual velocity, and characteristic scales, is an important goal of the hydrologic and geomorphic sciences. This ...

Understanding the three-dimensional forces at play in vegetated rivers can help improve river restoration and design.

The ice-covered season plays an important role in the development of river channels, a new study shows. The spatial variability of sediment transport and differences in depositional and erosional ...

New research from SFU’s Jeremy Venditti dives into the science of going with the flow predicting the evolution of the Earth’s surface. Researchers at Simon Fraser University (SFU) and The ...