• Hybrid lattice Boltzmann and finite volume method for fluid flow and heat transfer simulations 

    Li, Zheng (University of Missouri--Columbia, 2015)
    The fluid flow and heat transfer problems encountered in industry applications span into different scales and there are different numerical methods for different scales problems. Multiscale methods are needed to solve ...
  • Numerical study of self-assembly of granular and colloidal particles 

    Tayeb, Raihan (University of Missouri--Columbia, 2021)
    Self-assembly of granular materials and colloids are studied using several different computational methods such as Discrete Element Method (DEM), Smoothed Particle Hydrodynamics (SPH) method, finite volume Volume of Fluid ...
  • Reliability of EAM potentials for FCC metals properties prediction 

    Rassoulinejad Mousavi, Seyed Moein (University of Missouri--Columbia, 2020)
    [ACCESS RESTRICTED TO THE UNIVERSITY OF MISSOURI--COLUMBIA AT REQUEST OF AUTHOR.] A perfectly transferable interatomic potential that works for different materials and systems of interest is lacking. This work considers ...
  • Thermal effects of high energy and ultrafast lasers 

    Afrin, Nazia (University of Missouri--Columbia, 2015)
    Heat transfer describes the exchange of thermal energy, between physical systems depending on the temperature and pressure, by dissipating heat. The fundamental modes of heat transfer are conduction or diffusion, convection ...