Analysis of Shock Wave Propagation Over Perforated Wall and Its Discharge Coefficient
スポンサーリンク
概要
- 論文の詳細を見る
Shock wave propagation over a perforated wall and the wall discharge coefficient through the perforation were studied experimentally and numerically. The experiment was conducted in a shock tube equipped with double-exposure holographic interferometry. The shock Mach number was 1.54 in air and the wall perforation ratio was 0.4. The numerical simulation was conducted by means of an upwind finite difference scheme using the TVD scheme. To determine the wall discharge coefficient through the perforation, the numerical result was compared with the experimental one. The wall discharge coefficient through the perforation was obtained as 0.54, and this value can be extended to the perforation ratio ranging from 0.1 to 0.5, a shock wave Mach number of 1.5 to 5.5 and a corresponding Reynolds number of 1.24×10^5 to 9.78×10^5.
- 一般社団法人日本機械学会の論文
- 1994-08-15
著者
-
TAKAYAMA Kazuyoshi
Shock Wave Research Center, Institute of Fluid Science, Tohoku University
-
TAKAYAMA Kazuyoshi
Institute of Fluid Science, Tohoku University
-
Takayama K
Tohoku Univ.
-
Onodera H
Department Of Mechanical Engineering Iwate University
-
Onodera Hideki
Department Of Mechanical Engineering Iwate University
-
Takayama Kazuyoshi
Institute Of Fluid Science Tohoku University
関連論文
- X-ray Spectra from Weakly Ionized Linear Copper Plasma
- Enhanced K-edge Angiography Utilizing Tantalum Plasma X-ray Generator in Conjunction with Gadolinium-Based Contrast Media
- Variations in Cerium X-ray Spectra and Enhanced K-Edge Angiography
- Numerical Simulations of Detonation in Converging Chambers
- Measurement of Cerium X-ray Spectra Using a Cerium Oxide Powder Filter and Enhanced K-edge Angiography
- X-ray Spectra from a Characteristic X-ray Generator with a Molybdenum Tube
- Quasi-Monochromatic X-Ray Generator Utilizing Graphite Cathode Diode with Transmission-Type Molybdenum Target
- Quasi-Monochromatic Flash X-Ray Generator Utilizing Disk-Cathode Molybdenum Tube
- Monochromatic polycapillary imaging utilizing a computed radiography system
- Intense Characteristic X-ray Irradiation from Weakly Ionized Linear Plasma and Applications
- Irradiation of intense characteristic x-rays from weakly ionized linear molybdenum plasma
- X-ray Enhancement by Fuorescent Emission using the Plasma X-ray Source
- Water-Window X-ray Source Driven by an Ignitron Pulser
- Quasi-monochromatic x-ray irradiation from weakly ionized linear nickel plasma
- Development of an extremely soft x-ray generator
- Supersonic Diesel Fuel Injection through a Single-Hole Nozzle in a Compact Gas Gun : Part II
- Cerium X-ray Spectra without Filtering and their Application to High-contrast Angiography
- Bremsstrahlung X-ray Spectra for Enhanced K-edge Angiography
- Spatial Distribution of Cavitation-Shock-Pressure Around a Jet-Flow Gate-Valve : Series B : Fluid Engineering, Heat Transfer, Combustion, Power, Thermophysical Properties
- Numerical Simulation and Density Measurement of a Shock Wave Discharged from the Open End of a Shock Tube
- High-Speed Video Observation of Tympanic Membrane Rupture in Guinea Pigs(Bioengineering)
- Application of Underwater Shock Wave Focusing to the Developmemt of Extracorporeal Shock Wave Lithotripsy
- Fundamental Study in Extracorporeal Shock Wave Lithotripsy Using Piezoceramics : High Power Ultrasonics
- Experiments on Attenuation of Weak Shock Waves in High-Speed Train Tunnels
- Holographic Interferometric Observation of Shock Waves Discharged from an Open-Eng of a Square Cross-Sectional Shock Tube
- Investigation of Shock-Wave Generation by a High-Speed Train Running into a Tunnel
- Three-Dimensional Reglection of Shock Waves Propagating within a Shock Tube with Sudden Change in the Square Cross Section (「スーパーコンピューティングと複雑系としての流体科学」SCFS '97)
- Analysis of Shock Wave Propagation Over Perforated Wall and Its Discharge Coefficient
- Experimental Study of Pulsed High-Speed Liquid Jet
- Stability of Converging Cylindrical Shock Waves in a Vertical Annular Co-Axial Diaphragmless Shock Tube
- Microscope Opened by Shock Waves on Cancer Cell Surfaces : Morphological and Functional Features
- Studies on the Effects of Test Gas on the Flow Field around Large Angle Blunt Cone Flying at Hypersonic Mach Number
- Study on blast waves generated by milligram charges
- F134 On the Calibration of Numerical Models for Blast Wave Propagation Using Experiments with Microcharges
- Reflection and Diffraction Phenomena of Blast Wave Propagation in Nuclear Fuel Cycle Facility(International Conferences on Power and Energy System)
- Background of the technology transfer failure at Kamaishi iron mill
- Shock Wave Structure in Polyurethane Foam
- Shock-Wave-Induced Flow Past a Circular Cylinder in a Dusty-Gad Shock Tube
- Stability of Converging Cylindrical Shock Waves
- Visualization of Unsteady Shock Oscillations in the High-Enthalpy Flow Field around Double Cones