Add to ORKGSediment transport is an important component of the soil erosion process, which depends on several hydraulic parameters like unit discharge, mean flow velocity, and slope gradient. In most of the previous studies, the impact of these hydraulic parameters on transport capacity was studied for non-erodible bed conditions. Hence, this study aimed to examine the influence of unit discharge, mean flow velocity and slope gradient on sediment transport capacity for erodible beds and also to investigate the relationship between transport capacity and composite force predictors, i.e. shear stress, stream power, unit stream power and effective stream power. In order to accomplish the objectives, experiments were carried out in a 3.0 m long and 0.5 m ...
Abstract: Nearly all physically based models of soil erosion and landform evolution include an equat...
This study presents the comparison of experimental results with assumptions used in numerical models...
The physics-based sediment transport equations are derived from the assumption that the sediment tra...
Sediment transport is an important component of the soil erosion process, which depends on several h...
Soil erosion is a serious global problem requiring effective modeling for accurate assessment of sen...
Sediment transport capacity must be considered when developing physical models of soil erosion. The ...
Soil erosion is a common global problem that has negative impacts on agriculture production, water s...
An equation for evaluating the sediment transport capacity of overland flow is a necessary part of a...
Sediment transport capacity in rills is an important parameter for erosion modeling on hillslopes. I...
This study aims to evaluate the relationship between loess soil-based sediment transport capacity an...
Limited information is currently available on how sediment transport affects rill flow resistance an...
Shallow overland flow on agricultural land has distinctly different sediment transport characteristi...
Experiments were performed in a hydraulic flume with varying slope in a larger scale of flow dischar...
Study region: Yangkeng watershed (E118°03 ', N24°57 '), one of the typical representative areas wher...
Vegetation cover can effectively prevent soil erosion and plays an important role in soil and water ...
Abstract: Nearly all physically based models of soil erosion and landform evolution include an equat...
This study presents the comparison of experimental results with assumptions used in numerical models...
The physics-based sediment transport equations are derived from the assumption that the sediment tra...
Sediment transport is an important component of the soil erosion process, which depends on several h...
Soil erosion is a serious global problem requiring effective modeling for accurate assessment of sen...
Sediment transport capacity must be considered when developing physical models of soil erosion. The ...
Soil erosion is a common global problem that has negative impacts on agriculture production, water s...
An equation for evaluating the sediment transport capacity of overland flow is a necessary part of a...
Sediment transport capacity in rills is an important parameter for erosion modeling on hillslopes. I...
This study aims to evaluate the relationship between loess soil-based sediment transport capacity an...
Limited information is currently available on how sediment transport affects rill flow resistance an...
Shallow overland flow on agricultural land has distinctly different sediment transport characteristi...
Experiments were performed in a hydraulic flume with varying slope in a larger scale of flow dischar...
Study region: Yangkeng watershed (E118°03 ', N24°57 '), one of the typical representative areas wher...
Vegetation cover can effectively prevent soil erosion and plays an important role in soil and water ...
Abstract: Nearly all physically based models of soil erosion and landform evolution include an equat...
This study presents the comparison of experimental results with assumptions used in numerical models...
The physics-based sediment transport equations are derived from the assumption that the sediment tra...