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We apply fluid mechanics to clinically relevant problems involving blood flow, airway flow, and urinary transport.
Representative topics include obstructive sleep apnea, pseudoaneurysm treatment, coronary and venous flow, and ureteral stent design. The goal is to generate mechanistic insight and support better diagnosis, treatment planning, and medical device development.
Key Topics
Key Topics
Upper airway and respiratory airflow analysis
Obstructive sleep apnea-related flow behavior
Vascular and pseudoaneurysm hemodynamics
Thrombus formation and transport modeling
Flow behavior in medical devices and biofluid systems
Patient-specific simulation based on medical imaging
Representative Applications
Representative Applications
CT-based upper airway modeling
Pulsatile blood flow in pathological vascular geometries
Computational analysis of thrombin injection and thrombosis
Medical fluid systems involving complex internal flow structures
Tools and Methods
Tools and Methods
Image-based geometry reconstruction
Pulsatile and transient biomedical CFD
Flow visualization and waveform analysis
Coupled experimental and numerical interpretation
Research Projects
Research Projects
Development of a 3D Upper Airway Medical Twin based on Reduced-order Model (RoM) for Non-invasive Diagnosis of Obstructive Sleep Apnea (OSA)
Design and Analysis of Renovated Double J Stent for Urine Drainage Performance
Research on optimal thrombin injection method for treating femoral artery pseudoaneurysm
Pilot study for development of artificial venous valves
Flow Information Lab
School of Aerospace Engineering,
Gyeongsang National University
501, Jinju-daero, Jinju-si, Gyeongsangnam-do, 52828
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