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Department of Mechanical Engineering | 論文
- Microturbines(ABSTRACTS OF PROCEEDINGS OF THE SCHOOL OF ENGINEERING SERIES J TOKAI UNIVERSITY : 2002-2003)
- Numerical Analysis of Flow Characteristics around Circular Cylinders with Arc Grooves(SCHOOL OF ENGINEERING)
- Aerodynamic Characteristics for the Design of Rubber-Ball
- Enhancement of Film Cooling Performance Using a Shaped Film Cooling Hole with Compound Angle Injection
- Static Stability Analysis of Spatial Grasps Including Contact Surface Geometry
- Flow Characteristics for Grooves' Depth of a Circular Cylinder with Grooves
- Fluid Flow and Local Heat Transfer around Two Cubes Arranged in Tandem on a Flat Plate Turbulent Boundary Layer
- Drag Reduction and Heat Transfer Enhancement of a Square Prism
- Fluid Flow and Heat Transfer around a Cylindrical Protuberance Mounted on a Flat Plate Boundary Layer
- Ripple-Free Deadbeat Tracking Problem
- DRAG REDUCTION FOR D-SHAPE AND I-SHAPE CYLINDERS : AERODYNAMIC MECHANISM OF REDUCTION OF DRAG(Flow around Cylinder 1)
- Definition of Turbulence in In-Cylinder Flow Fields
- Heat Transfer in Separated Flow behind a Circular Cylinder for Reynolds Numbers from 120 to 30000 : 2nd Report, Unsteady and Three-Dimensional Characteristics
- Stabilizing Effects of Internal Stiffness for Slight Sliding at Contact Points
- Compact Simulation Model of Non-air Conditioned Room and Estimation of Its Thermal Characteristics under Winter Conditions
- Contact points Identification in Enveloping Grasp
- Flow Resistance and Strouhal Number of a Vortex Shedder in a Circular Pipe
- Hydraulic Losses of Flow Control Devices in Pipes
- H103 PRESSURE DROP AND HEAT TRANSFER OF ARRAYS OF IN-LINE CIRCULAR BLOCKS ON THE WALL OF PARALLEL CHANNEL(Electronics cooling-1)
- Drag Reduction for D-Shape and I-Shape Cylinders : Aerodynamic Mechanism of Reduction of Drag(Jets, Wakes and Separated Flows)