Constitutive Relations Based on Distinct Element Method Results for Granular Materials and Simulation of Granular Collapse and Heap by Smoothed Particle Hydrodynamics, and Experimental Verification
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概要
- 論文の詳細を見る
- 2008-03-01
著者
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UMEKAGE Toshihiko
Department of Mechanical Engineering, Kyushu Institute of Technology
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Yuu Shinichi
Ootake R And D Consulting Office
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Yuu Shinichi
Ootake R & D Consultant Office
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MITSUIKI Yasunori
Department of Mechanical Engineering, Kyushu Institute of Technology
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KOGA Fumitake
Department of Mechanical Engineering, Kyushu Institute of Technology
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Yuu Shinichi
Ootake R. And D. Consulting Office
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Mitsuiki Yasunori
Department Of Mechanical Engineering Kyushu Institute Of Technology
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Umekage Toshihiko
Department Of Mechanical Engineering Graduate School Of Engineering Kyushu Institute Of Technology
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Umekage Toshihiko
Graduate School Of Engineering Department Of Mechanical And Control Engineering Kyushu Institute Of
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Koga Fumitake
Department Of Mechanical Engineering Kyushu Institute Of Technology
関連論文
- Effect of Particle Existence on Low Reynolds Number Gas-Particle Free Jet(Re=800)
- Numerical simulation for blockage of cohesive particles in a hopper using the distinct element method and its correlation with experimental results of real cohesive granular materials
- Numerical simulation of the velocity and stress fields for a flowing powder using the smoothed particle method and experimental verification
- Constitutive Relations Based on Distinct Element Method Results for Granular Materials and Simulation of Granular Collapse and Heap by Smoothed Particle Hydrodynamics, and Experimental Verification
- Constitutive Relations and Computer Simulation of Granular Material
- Development Process of Turbulence in a Round-Nozzle Air Jet
- Direct Numerical Simulation for Three-Dimensional Gas-Solid Two-Phase Jet Using Two-Way Method and Experimental Verification
- Numerical Simulation of Particle Agglomeration and Bed Shrink in Sintering Process
- Numerical Simulation of Particle and Air Velocity Fields in Raceway in Model Blast Furnace and Comparison with Experimental Data (Cold Model)
- Large Scale Simulation of Coke and Iron Ore Particle Motions and Air Flow in Actual Blast Furnace
- Numerical Simulation of Effect of Tuyere Angle and Wall Scaffolding on Unsteady Gas and Particle Flows Including Raceway in Blast Furnace
- Numerical simulation for the friction mechanism of a powder bed using two-dimensional distinct element method
- Measurements of Turbulent Coagulation Process in Turbulent Flow and Comparison with Calculated Results
- Simulation of Sintering Process -Effects of Air Flow, Liquid Film Cohesion Force and Fixation Process on Large Scale Crack-
- Numerical Simulation of Blast Furnace Raceway Depth and Height, and Effect of Wall Cohesive Matter on Gas and Coke Particle Flows
- Simulation of Sintering Process : Effects of Air Flow, Liquid Film Cohesion Force and Fixation Process on Large Scale Crack