UG/PGT/PhD Projects

There are a number of UG/PGT/PhD projects available within my research group. Email me if you are interested in a project mentioning project number and title.

UG Projects

  • UG-01:   OpenFOAM simulation of wind flow over buildings using RANS,
  • UG-02:   Lattice Boltzmann simulation of conjugate heat transfer,
  • UG-03:   Sedimentation modes of a hot elliptical particle in narrow channels (LBM),
  • UG-04:   OpenFOAM simulation of particle-laden flows in one-way and two-way couplings,
  • UG-05:   Sedimentation of disk particles in narrow boxes (LBM),

PGT Projects

  • PGT-01:   Simulation of a simple indoor environment in OpenFOAM,
  • PGT-02:   Sedimentation of ellipsoid particle under non-isothermal condition (LBM),
  • PGT-03:   Extension of wall-stress model to heat transfer applications,
  • PGT-04:   Wall-stress model for flow over aerofoils,
  • PGT-05:   Turbulence modulation by spherical particles in vertical channels (LBM),
  • PGT-06:   Numerical study of unresolved particles in turbulent flows (OpenFOAM),
  • PGT-07:   Modelling pipe erosion by tiny particles in turbulent flows (OpenFOAM),
  • PGT-08:   Arrangement of buildings and temperature and velocity assessment (OpenFOAM),
  • PGT-09:   Drops formation and coalescence simulation (LBM, OpenFOAM),
  • PGT-10:   Grid refinement study in LBM simulations,
  • PGT-11:   Resolved spherical particles in a turbulent pipe flow (LBM),
  • PGT-12:   Formation of ice crystals using the phase-field model (LBM),
  • PGT-12:   Cyclone simulation using OpenFOAM,
  • PGT-13:   LES vs RANS for tiny particles in turbulent channel flows (OpenFOAM),
  • PGT-14:   Radiation heat transfer from resolved spherical particles,
  • PGT-15:   Effect of buildings arrangement on temperature distribution in cities,
  • PGT-16:   CFD for flow around ship and effect of geometry,
  • PGT-17:   CPU vs GPU for lattice Boltzmann simulations,
  • PGT-18:   Curved boundary treatment for lattice Boltzmann simulations of complex objects,

PhD Projects

Please consider whether a scholarship is available or not.
  • PhD-01:   Turbulence modulation by tiny non-spherical particles in OpenFOAM (currently not funded),
  • PhD-02:   Simulation of drag reduction in pipe flows using rigid long fibres in OpenFOAM (currently not funded),
  • PhD-03:   Lattice Boltzmann simulation of heat transfer in turbulent particle-laden flows (currently not funded),
  • PhD-04:   Reducing emissions from shipping sector by a better CFD design (currently not funded),
  • PhD-05:   Macroscopic study of tiny particles in indoor and outdoor environments (currently not funded),
  • PhD-06:   Study of buildings structure and arrangement effect on aerosols distribution in cities (currently not funded),
  • PhD-07:   LES and WMLES of indoor flows (currently not funded),
  • PhD-08:   Particles of complex and arbitrary shapes in turbulent flows (currently not funded),
  • PhD-09:   Numerical study of drops and bubbles (currently not funded),
  • PhD-10:   LES and WMLES for lattice Boltzmann applications (currently not funded),