Redirigiendo al acceso original de articulo en 19 segundos...
ARTÍCULO
TITULO

Formulating Fine to Medium Sand Erosion for Suspended Sediment Transport Models

François Dufois and Pierre Le Hir    

Resumen

The capacity of an advection/diffusion model to predict sand transport under varying wave and current conditions is evaluated. The horizontal sand transport rate is computed by vertical integration of the suspended sediment flux. A correction procedure for the near-bed concentration is proposed so that model results are independent of the vertical resolution. The method can thus be implemented in regional models with operational applications. Simulating equilibrium sand transport rates, when erosion and deposition are balanced, requires a new empirical erosion law that involves the non-dimensional excess shear stress and a parameter that depends on the size of the sand grain. Comparison with several datasets and sediment transport formulae demonstrated the model?s capacity to simulate sand transport rates for a large range of current and wave conditions and sand diameters in the range 100?500 µm. Measured transport rates were predicted within a factor two in 67% of cases with current only and in 35% of cases with both waves and current. In comparison with the results obtained by Camenen and Larroudé (2003), who provided the same indicators for several practical transport rate formulations (whose means are respectively 72% and 37%), the proposed approach gives reasonable results. Before fitting a new erosion law to our model, classical erosion rate formulations were tested but led to poor comparisons with expected sediment transport rates. We suggest that classical erosion laws should be used with care in advection/diffusion models similar to ours, and that at least a full validation procedure for transport rates involving a range of sand diameters and hydrodynamic conditions should be carried out.

 Artículos similares

       
 
Jerzy Zawisza, Iwona Radosz, Jaroslaw Biegowski and Leszek M. Kaczmarek    
The paper presents results of experimental and theoretical studies on transport of water-sand mixtures in steady flow with small amounts of cohesive fractions. The experiments were carried out for sand alone and with cohesive admixtures in the form of cl... ver más
Revista: Water

 
Alina Santa Cruz, Duc Hau Nguyen and Sylvain S. Guillou    
Proper orthogonal decomposition (POD) is used to examine the release of highly concentrated water?sediment mixture in water, with or without ambient current. This technique allows us to extract the dominant features in spatio-temporal data sets and the P... ver más
Revista: Water

 
Ioannis Y. Georgiou, Francesca Messina, Md Mohiuddin Sakib, Shan Zou, Madeline Foster-Martinez, Martijn Bregman, Christopher J. Hein, Michael S. Fenster, Justin L. Shawler, Kaitlyn McPherran and Arthur C. Trembanis    
Tidal-inlet systems are dynamic features that respond to short-term (e.g., storms) and longer-term processes (e.g., sea-level rise, changes in tidal prism). The Chincoteague Inlet system, located along the northern Eastern Shore of Virginia (USA), is a d... ver más

 
Dinh Van Duy, Tran Van Ty, Tran Nhat Thanh, Huynh Vuong Thu Minh, Cao Van De, Vu Hoang Thai Duong, Trinh Cong Dan, Nguyen Trung Viet and Hitoshi Tanaka    
Tidal inlets with attached sand spits are a very common coastal landform. Since the evolution of sand spits along coastlines influence the social-economic development of local coastal areas, sand spits have become the objects of numerous studies. However... ver más
Revista: Water

 
Dejana Ðordevic, Eniko Anna Tamás, Ljubi?a Mihajlovic, Csaba Abonyi, Aleksandar Vujanovic and Béla Kalocsa    
The subject of this study is an approximately 300 km long Middle Danube River reach that spans from river kilometer (rkm) 1581 in Hungary to (rkm) 1255 in Serbia. The observed drying of floodplains in Hungary some thirty years ago initiated the hydrologi... ver más
Revista: Applied Sciences