My research develops and applies particle-based numerical methods to simulate complex physical systems — from dam-breaks to battery electrode dynamics.
Thesis: Coupled SPH-DEM for Fluid and Solid Mechanics
2D Dam-Break (Smoothed Particle Hydrodynamics)
Stack of Cylinders Falling Under Gravity (Discrete Element Method)
Fluid-Structure Interaction (SPH)
Elastic Wave Propagation (Coupled SPH-DEM)
Sphere Impact Indentation — Elastic-Plastic Modeling (SPH-DEM)
Particle Dispersion in a Stirring Tank (SPH-DEM)
Particle Swelling Due to Water Intake (Battery Modeling)
