Cómo citar
Resumen
The particle based approach, including the particle resolving method, such as CFD-DEM, e.g. Drake and Calantoni (2001), Schmeeckle (2014), and the Particle-In-Cell (PIC) method, e.g. Patankar and Joseph (2001); Finn, M. Li, and Apte (2016); Y. Li et al. (2014), has become important tool for simulation of sediment transport in recent years. The latter is advantageous in the required computing resources when large amount of particles are involved and hence is more suitable for simulation of sediment transport over mobile bed. However, unlike that in CFD-DEM, special treatment is needed in the PIC method in order to prevent overlap and over-packing of sediment particles in a computational cell. Most models so far ignore the contact friction force between particles that hinders relative movement but often is essential to maintain particles in static position, especially in the seabed where the contact forces between particles are the largest. An new friction force is proposed to simulate the particle interactions, similar to the collision used in previous studies, so that the kinetic energy driving particles motion can be effectively dissipated and over-packing can be minimised under either static or dynamic stages of the particle motion.Referencias
Drake, Thomas G and Joseph Calantoni (2001). “Discrete particle model for sheet flow sediment transport in the nearshore”. In: Journal of Geophysical Research: Oceans 106(C9), pp. 19859–19868.
Finn, Justin R, Ming Li, and Sourabh V Apte (2016). “Particle based modelling and simulation of natural sand dynamics in the wave bottom boundary layer”. In: Journal of Fluid Mechanics 796, pp. 340–385.
Al-Hashemi, Hamzah M Beakawi and Omar S Baghabra Al-Amoudi (2018). “A review on the angle of repose of granular materials”. In: Powder technology 330, pp. 397–417.
Li, Yaru et al. (2014). “Development of a new 3D Euler- Lagrange model for the prediction of scour around offshore structures”.In: Coastal Engineering Proceedings, 1(34), 31.
Navarro, Helio A and Meire P de Souza Braun (2013). “Determination of the normal spring stiffness coefficient in the linear spring–dashpot contact model of discrete element method”. In: Powder technology 246, pp. 707–722.
O’Donoghue, Tom and Scott Wright (2004). “Concentrations in oscillatory sheet flow for well sorted and graded sands”. In: Coastal Engineering 50(3), pp. 117–138.
Patankar, NA and DD Joseph (2001). “Modeling and numerical simulation of particulate flows by the Eulerian– Lagrangian approach”. In: International Journal of Multiphase Flow 27(10), pp. 1659–1684. issn: 0301-9322.
Schmeeckle, Mark W (2014). “Numerical simulation of turbulence and sediment transport of medium sand”. In: Journal of Geophysical Research: Earth Surface 119(6), pp. 1240–1262.
Tomlinson, Michael John and Roger Boorman (2001). Foundation design and construction. Pearson education.
Zhou, YC et al. (1999). “Rolling friction in the dynamic simulation of sandpile formation”. In: Physica A: Statistical Mechanics and its Applications 269(2-4), pp. 536–553.
Esta obra está bajo una licencia internacional Creative Commons Atribución 4.0.
Derechos de autor 2023 Zhe Cao, Ming Li