Notice détaillée
Titre
Alimirzazadeh, Siamak
Sciper ID
249847
Laboratoires affiliés
LMH
Publications
A GPU-accelerated versatile solver based on the finite volume particle method
A multiscale model for sediment impact erosion simulation using the finite volume particle method
A multiscale model for the simulation of sediment impact erosion of metallic targets using the finite volume particle method
Application of particle-based numerical analysis to the practical design of Pelton turbine
FVPM numerical simulation of the effect of particle shape and elasticity on impact erosion
GPU-Accelerated 3-D Finite Volume Particle Method
GPU-accelerated numerical analysis of jet interference in a six-jet Pelton turbine using Finite Volume Particle Method
Impact erosion prediction using the finite volume particle method with improved constitutive models
Multiscale simulation of erosive wear in a prototype-scale Pelton runner
Numerical investigation of the jet velocity profile and its influence on the Pelton turbine performance
Voir toutes les publications (11)
A multiscale model for sediment impact erosion simulation using the finite volume particle method
A multiscale model for the simulation of sediment impact erosion of metallic targets using the finite volume particle method
Application of particle-based numerical analysis to the practical design of Pelton turbine
FVPM numerical simulation of the effect of particle shape and elasticity on impact erosion
GPU-Accelerated 3-D Finite Volume Particle Method
GPU-accelerated numerical analysis of jet interference in a six-jet Pelton turbine using Finite Volume Particle Method
Impact erosion prediction using the finite volume particle method with improved constitutive models
Multiscale simulation of erosive wear in a prototype-scale Pelton runner
Numerical investigation of the jet velocity profile and its influence on the Pelton turbine performance
Voir toutes les publications (11)
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