Numerical Analysis of Sloshing and Wave Breaking in a Small Vessel by CIP-LSM(<Special Issue>CIP)
スポンサーリンク
概要
- 論文の詳細を見る
For the prediction of sloshing in the propellant tank of a rocket vehicle, the preliminary investigation was conducted. The flow field in the propellant tank during the ballistic flight of the vehicle was experimentally reproduced with the sub-scale model. The lateral acceleration as large as about 0.8G was provided with a mechanical exciter and the deformation of the liquid surface in the small vessel was visualized with a high-speed camera. The sloshing phenomena were also simulated with the CFD code, called CIP-LSM. The important features of surface deformation and wave breaking were successfully reproduced in the computation.
- 一般社団法人日本機械学会の論文
- 2004-11-15
著者
-
Nonaka Satoshi
Institute Of Space And Astronautical Science Japan Aerospace Exploration Agency
-
Nonaka Satoshi
Institute Of Space And Astionautical Science Japan Aerospace Exploration Agency
-
WATANABE Toshinori
Department of Neurosurgery, Kurume University School of Medicine
-
Watanabe Toshinori
Department Of Aeronautics And Astronautics The University Of Tokyo
-
Watanabe Toshinori
Department Of Aeronautics And Astronautics University Of Tokyo
-
Himeno Takehiro
Department Of Aeronautics And Astronautics The University Of Tokyo
-
Himeno Takehiro
Department Of Aeronautics And Astronautics University Of Tokyo
-
NARUO Yoshihiro
Institute of Space and Astionautical Science, Japan Aerospace Exploration Agency
-
INATANI Yoshifumi
Institute of Space and Astionautical Science, Japan Aerospace Exploration Agency
-
Naruo Yoshihiro
Institute Of Space And Astionautical Science Japan Aerospace Exploration Agency
-
Inatani Yoshifumi
Institute Of Space And Astionautical Science Japan Aerospace Exploration Agency
関連論文
- Radiation-induced Osteosarcoma of the Calvaria : Case Report
- Study on Free-surface Flows in Aerospace Propulsion Systems
- Completely Thrombosed Giant Fusiform Aneurysm in a Young Patient : Case Report
- A Numerical Analysis of the Flow Passing through a Cascade with Tip Clearance : Subsonic Flow through a Linear Cascade Composed of Flat Plates
- Numerical Analysis of Sloshing and Wave Breaking in a Small Vessel by CIP-LSM(CIP)
- Thermal Responses of Ablator for Reentry Capsules with Superorbital Velocity
- TS-44 Unsteady Tip Vortex Behavior and Its Effects on Aerodynamic Characteristics of Downstream Blades(Session B-6: Unsteady Flow 3)
- An Experimental Study on the Boundary Layer Transition due to Gas Injection from Capsule-shape Body Surface
- Experimental study on capillary flow in intricate vane-wall geometry under micro-gravity conditions (特集 沸騰・二相流)
- Design Overview of an Asteroid Sample Return Capsule
- System Description and Reentry Operation Scenario of MUSES-C Reentry Capsule
- Attitude Motion and Aerodynamic Characteristics of MUSES-C Reentry Capsule
- A Unique Single Stage Parachute System and Qualification by Balloon Drop Tests
- Thermal Protection System of the Reentry Capsule with Superorbital Velocity
- The Aerodynamic Data Base for Asteroid Sample Return Capsule
- Rarefied Aerodynamics of MUSES-C Sample Return Capsule
- Nonequilibrium Temperatures Measurement in an Arc-Heated Airflow by the Optical Diagnostic Method
- JAPANESE ROCKET SOCIETY'S ROCKET SYMPOSIA 1995-2001 : With an Overview of Japanese Rocket Society's Space Tourism Study
- Arc Heating Facility and Test Technique for Planetary Entry Missions
- FLIGHT DEMONSTRATION AND A CONCEPT FOR READINESS OF FULLY REUSABLE ROCKET VEHICLES
- Theoretical Study on the Unsteady Aerodynamic Characteristics of an Oscillating Cascade with Tip Clearance (In the Case of a Nonloaded Cascade)
- Theoretical Study on the Unsteady Aerodynamic Characteristics of an Oscillating Cascade with Tip Clearance : In the Case of Loaded Cascade
- Experimental Study on Unsteady Aerodynamic Characteristics of an Oscillating Cascade with Tip Clearance
- The Effects of Acoustically Lined Walls on Cascade Flutter
- Two arginine residues in the substrate pocket predominantly control the substrate selectivity of thiocyanate hydrolase(ENZYMOLOGY, PROTEIN ENGINEERING, AND ENZYME TECHNOLOGY)