This thesis reports experimental and numerical studies of the effects of adverse pressure gradients (APG) and Reynolds numbers on flows over forward facing steps (FFS). For the experimental work, particle image velocimetry was used to conduct velocity measurements at several locations downstream of the FFS. Proper orthogonal decomposition and two-point correlation were applied to the experimental data to study the large scale structures. For the numerical analysis, turbulence models in ANSYS Fluent were used to study the reattachment length XL for blockage ratios from 5.8% to 29.5% and step inclination angles from 22.5?? to 135??. The experimental results show that XL increases with the increase in Reynolds number without APG, but remains ...
In this research, the Hseih/Duffy model is extended to all three velocity components of inflow acros...
Liquid-liquid segmented flows in a square microchannel are investigated numerically using a hybrid f...
The simulation of flow and transport in fractured porous media is crucial to improve understanding a...
An experimental investigation was taken on a 63-021 NACA airfoil, to characterize lift and drag and ...
The work covered in this project had the objective of investigating key factors in single vane pump ...
The blood flow through the Bidirectional Glenn shunt (BGS) and modified Blalock-Taussig shunt (mBTS)...
During the sampling of atmospheric aerosol particles from ambient environments, particles must be se...
An experimental study of the wake of a turbulent boundary layer junction flow was performed using a ...
textThis work focuses on the study of flow around cylinder with both Particle Image Velocimetry (PIV...
An aerodynamic inverse shape design method is implemented into ANSYS-CFX using a User Defined Functi...
To supplement past research on low speed unsteady airfoil responses to upstream disturbances, this w...
Annular seals are widely used in industry to seal a fluid between a stationary and rotating member. ...
In this thesis, detailed uncertainty quantification studies focusing on the closure coefficients of ...
The complex dynamics of fluid and particles flowing through pore space demands some relaxation time ...
A series of experiments has been performed at ambient pressure using optically accessible test artic...
In this research, the Hseih/Duffy model is extended to all three velocity components of inflow acros...
Liquid-liquid segmented flows in a square microchannel are investigated numerically using a hybrid f...
The simulation of flow and transport in fractured porous media is crucial to improve understanding a...
An experimental investigation was taken on a 63-021 NACA airfoil, to characterize lift and drag and ...
The work covered in this project had the objective of investigating key factors in single vane pump ...
The blood flow through the Bidirectional Glenn shunt (BGS) and modified Blalock-Taussig shunt (mBTS)...
During the sampling of atmospheric aerosol particles from ambient environments, particles must be se...
An experimental study of the wake of a turbulent boundary layer junction flow was performed using a ...
textThis work focuses on the study of flow around cylinder with both Particle Image Velocimetry (PIV...
An aerodynamic inverse shape design method is implemented into ANSYS-CFX using a User Defined Functi...
To supplement past research on low speed unsteady airfoil responses to upstream disturbances, this w...
Annular seals are widely used in industry to seal a fluid between a stationary and rotating member. ...
In this thesis, detailed uncertainty quantification studies focusing on the closure coefficients of ...
The complex dynamics of fluid and particles flowing through pore space demands some relaxation time ...
A series of experiments has been performed at ambient pressure using optically accessible test artic...
In this research, the Hseih/Duffy model is extended to all three velocity components of inflow acros...
Liquid-liquid segmented flows in a square microchannel are investigated numerically using a hybrid f...
The simulation of flow and transport in fractured porous media is crucial to improve understanding a...