Embedded Files
The laboratory develops and applies advanced computational methods to analyze complex fluid flow phenomena.
Major topics include turbulence, multiphase flow, cavitation, erosion, transport phenomena, and reduced-order modeling for dynamic systems. These numerical approaches provide the foundation for understanding, predicting, and optimizing fluid behavior across a wide range of engineering and biomedical applications.
Key Topics
Key Topics
Computational fluid dynamics (CFD)
Fluid–structure interaction (FSI)
Multiphase and transient flow analysis
Species transport and reaction-based flow modeling
Numerical optimization and parametric design analysis
Representative Applications
Representative Applications
Internal flow in pumps, ducts, and piping systems
Vibration-sensitive flow environments
Biomedical flow systems involving pulsatile and transitional flow
Coupled simulations of deformation, pressure, and flow response
Tools and Methods
Tools and Methods
ANSYS CFX / Workbench
Transient and steady-state simulations
Mesh generation and grid independence studies
Quantitative post-processing and model validation
Research Projects
Research Projects
CFD analysis of Obstructive Sleep Apnea According to Body Mass Index
CFD analysis of a cyclone dust collector
CFD analysis on Thrombin-Induced Thrombosis (TIT)-based complex-shaped femoral artery pseudoaneurysm
CFD analysis on Flow Performance and rate of encrustation formation on an in vitro urinary tract model
Flow Information Lab
School of Aerospace Engineering,
Gyeongsang National University
501, Jinju-daero, Jinju-si, Gyeongsangnam-do, 52828
Quick Link
© 2026 Flow Information Lab — Gyeongsang National University
Page updated
Report abuse