スポンサーリンク
Institute of Fluid science, Tohoku University | 論文
- Shock Wave Structure in Polyurethane Foam
- BEM Analysis of a Cylindrical Three-Point Bend Specimen with a Chevron Crack for Fracture Toughness Test of Rock
- TED-AJ03-406 TRANSPORT OF BIOMOLECULES IN THE RATCHETING ELECTROPHORESIS MICROCHIP (REM)
- Efficient Numerical Method Based on Double Porosity Model to Analyze Heat and Fluid Flows in Fractured Rock Formations
- Measurement of Transient Double Diffusive Convection and Crystal Growth Using Real-Time Phase-Shifting Interferometer
- Experimental and Computational Studies of Low-Speed Aerodynamic Performance and Flow Characteristics around a Supersonic Biplane
- Large Eddy Simulation of Unsteady Interaction between Supersonic Turbulent Boundary Layer and Shock Wave at a Compression Corner(Compressible Flow and Detonation)
- Analysis of Three-Dimensional DC Magnetron Discharge by the Particle-in-Cell/Monte Carlo Method
- Fundamental Study of Hybrid Wind Tunnel Integrating Numerical Simulation and Experiment in Analysis of Flow Field
- Fundamental Study of Aerodynamic Drag Reduction for Vehicle with Feedback Flow Control
- Development of Novel Arrayed Multi-Coil Probes for Eddy Current Testing(NDE4)
- Numerical Analysis on Plasma Spraying in a DC-RF Hybrid Plasma Reactor
- Hydrogen Internal Friction Peak in Amorphous Zr-Cu-Al-Si Alloys
- Pulsating Flow of Magnetic Fluid in a Pipe under Fluctuating Magnetic Field
- Experiments on Flame Spread of a Fuel Droplet Array in a High-Pressure Ambience
- Flame Stabilization Mechanism of a Newly Devised Strut for the Scramjet Engine
- TED-AJ03-608 EXTINCTION OF THE COUNTERFLOW DIFFUSION FLAME OF BLENDED FUELS
- TED-AJ03-616 Extinction Limits of Counterflow Diffusion Flames of CO, H_2,CH_4 and Their Blends
- Structures and Stability of Lifted Combustion Zones in Preheated Oxidizer(Special Issue on International Conference on Power and Energy System)
- TED-AJ03-400 Radiation Reabsorption Effects on NO Emission from High-Temperature Air/CH_4 Counterflow Diffusion Flames