Thesis

  • Surrounding effects assessment for building energy performance evaluation.
  • Optimization of fenestration configuration in buildings for thermal and lighting performance.
  • Numerical aerodynamic optimization and wind load evaluation framework for tall buildings.
  • Numerical modeling of a tornado-like vortex and its interaction with bluff bodies.
  • BIM assisted automation of Pre Engineered Buildings.
  • Effect of downbursts on transmission line structures.
  • Numerical evaluation of aerodynamic roughness for the built environment and complex terrain.
  • Reducing uncertainties in the estimation of wind effects on tall buildings using aerodynamic wind tunnel tests.
  • Evaluation of internal pressure in low-rise buildings.
  • Computational evaluation of wind loads on buildings.
  • Wind induced response system Identification.
  • Pressure equalization on multilayer roof system.
  • Generic numerical tornado model for a common interpretation of existing experimental simulators.
  • Anomaly detection in smart buildings.
  • Wind load on solar panel comparisons between full-scale pressure and force balance aerodynamic data.
  • Numerical evaluation of downburst interaction with a bluff body.
  • Evaluation of wind loads on single solar panel and arrays.
  • Evaluation of wind loads on tall buildings.
  • Wind load on roof ridge and field tiles.
  • Flow management devices for small scale 12-fan Wall of Wind.
  • Full-scale assessment of roof secondary water barrier for wind.
  • Evaluating the Accuracy and Performance of Artificial Neural Networks as Surrogate Wind Load Models for Wind Turbine Blades.
  • Numerical modelling of downburst loading on low rise buildings.
  • Wind load evaluation on tall buildings.
  • Aerodynamics of Roof Pavers.
  • The effect of assumptions in structural modeling on design wind loads.