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Department of Mechanical Engineering, Kansai University | 論文
- DPJ-036 Area with High Strain is Susceptible to Lesion Formation in Aortic Valve(DPJ06,Valvular Heart Disease/Pericarditis/Cardiac Tumor (M),Digital Poster Session (Japanese),The 73rd Annual Scientific Meeting of The Japanese Circulation Society)
- Low NOx Combustion of DME by Means of Flue Gas Recirculation
- Simultaneous Measurements of Bubble and Liquid Velocities in Two-Phase Bubbly Flow Using Laser Doppler Velocimeter
- Development of Low-NOx DME Multi-Port Burner(International Conferences on Power and Energy)
- Development of Tube-Nested Combustor with Transpiration Air Supply
- Increase in Vortex Shedding Frequency from an Elasto-Flexible Cylinder in Uniform Water Flow
- Numerical Simulation and Experimental Verification of Wave Propagation in a Collapsible Tube
- Behavior and deformation of human erythrocytes flowing through micro-channel arrays as a model of human blood capillaries(Microbiorheology)
- Experimental and clinical trial of measuring urinary velocity with the pitot tube and a transrectal ultrasound guided video urodynamic system
- Experimental and clinical trial of measuring urinary velocity with the pitot tube and a transrectal ultrasound guided video urodynamic system
- Instability of a Perfectly Conducting Liquid Jet in Electrohydrodynamic Spraying : Perturbation Analysis and Experimental Verification
- The Effect of Longitudinal Tension on Flow in Collapsible Tube
- Numerical Simulation of Flow around LDV-Sensor for Measuring Blood Flow Velocities(Cardiovascular flow Simulation)
- Numerical Simulation and Experiment of Pulsatile Flow in Modeled Aortic Arch
- Numerical Simulation of Flow in a Collapsible Tube with Large Local Deformation Due to Cross-Sectional Buckling (A Coronary Artery Spasm Model)
- Numerical Simulation of Flow in a Collapsible Tube with Large Local Deformation due to Cross-sectional Buckling(A Coronary Artery Spasm Model)
- NUMERICAL SIMULATION OF RESPIRATORY AIRFLOW IN REALISTIC NASAL CAVITY MODEL(3C1 Cardiopulmonary & Respiratory Mechanics)
- Characteristics of Bed-Material Behavior and Heat Transfer around Vertical Tube Banks in a Fluidized Bed
- Characteristics of Heat Transfer and Bed Material Movement around Vertical Tube in Fluidized Bed
- B205 DISTRIBUTION OF VOID FRACTION AND HEAT TRANSFER COEFFICIENT AROUND VERTICAL TUBE BANKS IN FLUIDIZED BED