Mobile QR Code QR CODE


Chenson H., 2009, Application of the method of characteristics to the dam break wave problem, J. Hydraul. Res., Vol. 47, pp. 41-49DOI
Liao C. B., Wu M. S., Liang S. J., 2009, Numerical simulation of a dam break for an actual river terrain environment, Hydrol. Process, Vol. 21, pp. 447-460DOI
Janosi I. M., Jan D., Szabo K. G., 2004, Turbulent drag reduction in dam break flows, Exp. Fluids, Vol. 37, pp. 219-229DOI
Monaghan J.J., 1994, simulating free surface slows with SPH, J. Comput. Phys., Vol. 110, No. 2, pp. 39-406DOI
Xu R., Stansby P., Laurence D. L., 2009, Accuracy and Stability in incompressible SPH based on the projection method and a new approach, J. Comput. Phys., Vol. 228, No. 18, pp. 6703-6725DOI
Koshizuka S., Oka Y., 1996, moving particle semi-implicit method for fragmentation of incompressible fluid, Num. sci. and Eng., Vol. 123, pp. 421-434DOI
Tanaka M., Masunaga T., 2010, Stabilization and smoothing of pressure in MPS method by quasi-compressibility, J. Comput. Phys., Vol. 229, No. 11, pp. 4279-4290DOI
Lee B.H., Park J.C., Kim M.H., 2010, Numerical simulation of impact loads using a particle method, Ocean Eng., Vol. 37, pp. 164-173DOI
Duan G., Matsunaga T., Yamaji A., Koshizuka S., Sakai M., 2020, Imposing accurate wall boundary conditions in corrective-matrix-based moving particle semi-implicit method for free surface flow, Int. J. Numerical method in fluidsDOI
Kim K.S., Kim M.H., 2015, Simulation of Multiliquid-layer sloshing with vessel motion by using moving particle semi-implicit method, J. offshore Mech. And Arctic Eng., Vol. 137, 051602-1DOI
Kim K.S., Kim M.H., Jang H., Cho H.C., 2018, Simulation of solid particle interactions including segregated lamination by using MPS method, Comp. Modeling of Eng. Sci., Vol. 116, No. 1, pp. 11-29DOI
Harada E., Gotoh H., Ikari H., Khayyer A., 2019, Numerical simulation for sediment transport using MPS-DEM coupling model, Advanced in Water Resource, Vol. 129, pp. 354-364DOI