| ID |
TITLE |
AUTHORS |
SESSION |
TOPIC |
| 258 |
OBTAINING
LIFT AND INDUCED DRAG USING A WAKE INTEGRATION TECHNIQUE APPLIED TO PTV
STUDIES OF A NACA 0015 WING WITH GURNEY FLAP |
G. McCutcheon, A. H. McColgan, D. Hurst, I. Grant |
2.6.1 |
Airfoils |
| 30 |
PLASMA
ACTUATORS FOR SEPARATION CONTROL ON AIRFOILS |
M. L. Post, T. C. Corke |
2.6.2 |
Airfoils |
| 35 |
LOW SPEED
EXPERIMENTAL INVESTIGATION AND FLOW VISUALIZATION OF AIRFOIL TRAILING-EDGE
DEVICES |
W. Zhang, Z. Li, J. Li, J. Yang, Y. Wang |
2.6.4 |
Airfoils |
| 186 |
Effect
of Rotor Blade Tip shape on Helicopter Main-Rotor Performance |
B. Yagiz, A. R. Aslan |
2.6.3 |
Airfoils |
| 123 |
EFFECT
OF THE BODY POSITION ON PROFILE DRAG AND LIFT OF A BLUFF BODY WITH L–TYPE
CROSS SECTION PLACED IN A UNIFORM FLOW |
Y. Suzuki, H. Ennoji , T. Iijima |
2.4.2 |
CFD |
| 229 |
FLUID
FLOW AND HEAT TRANSFER IN ADVANCED AUTOMOTIVE RADIATOR DESIGNS USING CFD |
A. Witry, A. Aroussi |
2.4.3 |
CFD |
| 28 |
AIRFLOW
IN AND AROUND THE WHEEL ARCH OF A ROAD VEHICLE |
A. Aroussi, S. Apsley |
2.4.1 |
CFD |
| 18 |
LES STUDY
OF WALL FLOW WITHIN THE RECIRCULATING REGION OF A BACKWARD FACING STEP |
A. Keating, K. Bremhorst |
1.4.2 |
CFD |
| 19 |
DNS STUDY
OF THE INSTANTANEOUS AND MEAN FLOW ON SCALAR TRANSPORT IN TURBULENT TAYLOR-COUETTE
FLOW |
M. Bilson, K. Bremhorst |
1.4.1 |
CFD |
| 176 |
SIMULATION
OF HUMAN CEREBROSPINAL FLUID FLOW |
A. Aroussi, M. Vloeberghs, S. Etchell, J. Gransden,
R. Latimer, D. Giddings |
1.4.3 |
CFD |
| 67 |
Experimental
Observations and Numerical Analysis of Laser-Induced Spark in Air |
P. X. Tran |
3.4.3 |
CFD High Speed Flows |
| 158 |
Experimental
Analysis of High-speed and Initial Helium Jet Flow Using Three-dimensional
Digital Speckle Tomography |
H. S. Ko, K. Ikeda, M. Ishikawa, K. Okamoto,
Y-J. Kim |
3.4.2 |
CFD High Speed Flows |
| 97 |
Surface and Off-Body Cavity Flows
at Supersonic Speeds |
R. Wood |
3.4.1 |
CFD High Speed Flows |
| 39 |
INVESTIGATION
OF SECONDARY FLOWS IN DOUBLE PIPE ELBOWS: CFD STUDY |
A. Aroussi, J. Roberts, P. Rogers |
4.4.4 |
CFD Internal Flows |
| 109 |
Numerical
Visualization of Vortices within the Separation in a Decelerating Square
Channel Flow |
K. Matsuzaki, Y. Kinoue, H. Ohba |
4.4.1 |
CFD Internal Flows |
| 13 |
VISUALIZATION
OF DENSITY HETEROGENEITY IN FREE FALL PARTICLES USING CT AND 3D-WAVELETS |
M. Takei |
4.4.2 |
CFD Internal Flows |
| 40 |
INVESTIGATION
OF SECONDARY FLOWS IN DOUBLE PIPE ELBOWS: AN EXPERIMENTAL STUDY |
A. Aroussi, J. Roberts, P. Rogers, G. Box |
4.4.3 |
CFD Internal Flows |
| 12 |
VISUALISATION
OF THE OSCILLATORY REGIME OF A TURBULENT PLANE JET IMPINGING IN A RECTANGULAR
CAVITY |
A. Mataoui, R. Schiestel, A. Salem |
3.13.1 |
CFD Jets |
| 215 |
Interaction
of a Circular Cylinder Wake with a Downstream Airfoil |
C. Y. Zhou, Y. Zhang, Y. Zhou, L. Cheng |
4.7.3 |
CFD Thermal |
| 156 |
Development
of the first convective layer in a stable salinity gradient
heated from below |
K. Choubani, M. J. Safi |
4.7.2 |
CFD Thermal |
| 146 |
Natural
convection in a cavity with an internal heated source |
V. Ménard, L. Perrin, P. Reulet, P. Millan |
4.7.1 |
CFD Thermal |
| 95 |
Effect
of the Number of Grooves on Flow Characteristics around a Circular Cylinder
with Grooves |
Y. Yamagishi, M. Oki |
3.2.3 |
Cylinders |
| 191 |
Unsteady
Flow in the wake behind a circular cylinder by means of RVV |
D. Zibret, Y. Bailly, R. Malfara J. P. Presnel |
3.2.2 |
Cylinders |
| 212 |
Flow visualization
of a system of horseshoe vortices upstream of the junction of a short cylinder
and a flat plate |
R. Romero-Méndez, F. Pérez-Gutiérrez, M. Rodríguez,
M. Ramos-Paláu, E. Ramos |
3.2.4 |
Cylinders |
| 210 |
LABORATORY
INVESTIGATION ON WAVE TRANSFORMATION AND BREAKING OVER AN OBSTACLE |
S. Ferrari, G. Querzoli |
3.2.1 |
Cylinders |
| 119 |
Effect
of Drag Reduction for Surface Structure of Circular Cylinder |
Y. Wakai, S. Takayama, K. Aoki |
4.2.4 |
Cylinders |
| 187 |
EFFECTS
OF PERTURBATION ON THE WAKES OF TWO SIDE-BY-SIDE SQUARE CYLINDERS: A CONTROLLABILITY
STUDY |
S. J. Xu, Y. Zhou, L. Cheng, R. M. C. So. |
4.2.3 |
Cylinders |
| 118 |
Flow Characteristics
around a Rotating Cylinder for the Surface Structure |
S. Takayama, T. Shimada, K. Aoki |
4.2.2 |
Cylinders |
| 185 |
The flow
around interacting rotating spheres of different size |
K. Buehler |
4.2.1 |
Cylinders |
| 103 |
FLOW VISUALIZATION
STUDY OF FAR FIELD WAKE VORTEX INTERACTIONS |
B. M. Babie, R. C. Nelson |
3.9.2 |
Dye / Bubbles |
| 17 |
UNSTEADY
THERMAL DIFFUSION IN A STATIONARY TANK FROM A ROTATING COOLED UPPER SURFACE |
H. Ohue, G. Kawashima, T. Fujiwara, W- J. Yang |
3.9.1 |
Dye / Bubbles |
| 16 |
VISUALIZATION
OF THE FLOW IN CIRCULAR TUBE WITH SEGMENTAL BAFFLES AT LOW REYNOLDS NUMBERS |
M. Al-Atabi, S. B. Chin, X. Y. Luo |
3.9.3 |
Dye / Bubbles |
| 194 |
Visualizing
Time-Varying Three-Dimensional Flow Fields Using Accelerated UFLIC |
Z. Liu, R. J. Moorhead |
1.11.3 |
Imaging |
| 160 |
Computer
Visualization of Ocean Flows |
E. Ess, D. Sapirstein, C. Topper, Y. Sun |
1.11.1 |
Imaging |
| 251 |
ART AND
PHYSICS: A FLOW VISUALIZATION COURSE AND OUTREACH EXPERIENCE |
J. Hertzberg, A. Sweetman |
1.11.1 |
Imaging |
| 112 |
Some Research
and Application of Color Computational Interferometry |
Y. Wu , J. Le |
2.10.4 |
Interferometry |
| 257 |
AN EXPERIMENTAL
VALIDATION OF A REAL-TIME MICHELSON INTERFEROMETER AND A STUDY OF A JET
INDUCED HOMOGENIZATION |
J. L. M. Nijholt, T. A. M. Beumer |
2.10.2 |
Interferometry |
| 180 |
Application
of common-path interferometry in fluid dynamics experiments |
N. Rashidnia, R. Balasubramaniam |
2.10.3 |
Interferometry |
| 66 |
Aerooptic
Aberrations analyzed by high speed differential interferometry |
J- M. Desse, J- P. Bourez |
2.10.1 |
Interferometry |
| 105 |
A Gallery of Cardiovascular Fluid
Flow Fields: From Heart Valves to Congenital Heart Disease |
|
|
Invited Paper |
| 155 |
Visualization
in Extreme Environments |
M. J. Murphy, R. J. Adrian, G. S. Elliott, K. A.
Thomas, J. E. Kennedy |
|
Invited Paper |
| 68 |
Pressure
sensitive Paints and Temperature sensitive Paints in quantitative wind Tunnel
Studies |
R. H. Engler |
|
Invited Paper |
| 240 |
Cavitation
as Flow Visualization Seeding |
W. K. Blake, J. Katz |
|
Invited Paper |
| 252 |
Flow Visualization
by Filtered Molecular and Particle Scattering |
R. B. Miles |
|
Invited Paper |
| 259 |
HIGH-PERFORMANCE
COMPUTING AND VISUALIZATION OF UNSTEADY TURBULENT FLOWS |
T. Kobayashi, M. Tsubokura, N. Taniguchi |
|
Invited Paper |
| 234 |
The Use of Colours in Thermo-Fluid-Dynamic
Studies |
|
|
Invited Paper |
| 134 |
Visualization
of Foreign Gases in Atmospheric Air |
T. C. Gruber Jr., L. B. Grim |
|
Invited Paper |
| 153 |
Differential
molecular diffusion in turbulent jets |
C. J. Brownell, L. K. Su |
2.9.1 |
Jets |
| 131 |
Resonance
Tone Generated by Jet Passing through an Axisymmetric Cavity |
T. Komori, S. MurakamiI, Y. Nakazono, T. Iijima |
2.9.2 |
Jets |
| 202 |
VISUALIZATION
OF PLASMA JET UNDER STRONG MAGNETIC FIELD |
N. Ono, K. Musha, K. Koike |
2.9.3 |
Jets |
| 107 |
FORCE
MEASUREMENTS AND FLOW STRUCTURE FOR FIXED AND FLAPPING WINGS AT LOW REYNOLDS
NUMBER |
G. R. Spedding, M. Rosén, A. Hedenström, J. McArthur |
3.10.1 |
Low Re Flows |
| 37 |
FLUORESCENT
OIL FLOW VISUALIZATION TECHNIQUE APPLIED TO 2D AIRFOILS AT VERY LOW REYNOLDS
NUMBERS |
L. Lorefice, B. Pralio, F. Quagliotti |
3.10.2 |
Low Re Flows |
| 178 |
PIV MEASUREMENT
OF FLOW IN A THIN ELECTRONICS CASING |
S. Nakagawa, K. Nakayama, M. Ishizuka |
3.10.3 |
Low Re Flows |
| 130 |
Confined
sedimentation of one sphere in fluid at low Reynolds number: reverse flow |
D. Reungoat, D. Calluaud, L. David |
3.10.4 |
Low Re Flows |
| 151 |
STUDY
OF CARBURETOR VENTURI THROUGH NUMERICAL SIMULATION AND HIGH SPEED VISUALIZATION |
D. A. Arias, T. A. Shedd |
1.14.1 |
Multiphase Flow |
| 50 |
Real-Time
Visualization and Steering of Large-Scale Parallel Simulations |
L. N. Long, P. E. Plassmann, N. Sezer-Uzol †,
S. Jindal†† |
1.14.2 |
Multiphase Flow |
| 159 |
MEASUREMENTS
OF BUBBLE MOTION FOR UPWARD TURBULENT TWO PHASE FLOW USING PARTICLE IMAGE
VELOCIMETRY AND SHADOW IMAGE VELOCIMETRY |
H. Martínez-Zepeda, F. Sanchez-Silva, E. L. Ramírez
, Y. A. Hassan, E. Domínguez -Ontiveros, J. Ortiz-Villafuerte |
1.14.3 |
Multiphase Flow |
| 23 |
MEASUREMENTS
OF JET FLOW INDUCED BY BUBBLE COLLAPSE USING PIV |
S. Y. Jaw, R. R. Hwang, C- J. Chen |
1.5.4 |
PIV |
| 86 |
EXPERIMENTAL
VALIDATION OF BEM CODE ANALYSIS OF BUBBLE SPLITTING IN A TIP VORTEX FLOW |
M. Rebow,, J. Choi, J.- K. Choi, G. L. Chahine,
S. L. Ceccio |
1.5.3 |
PIV |
| 225 |
Velocity
Measurement of Gas/Liquid Interface Applied to PIV |
F. Shimizu, K. Nagayama, K. Tanaka |
1.5.2 |
PIV |
| 224 |
Analysis
of Large-scale Deformation of Gas/Liquid Interface Induced by a Siphon Phenomenon |
F. Shimizu, K. Nagayama, K. Tanaka |
1.5.1 |
PIV |
| 183 |
Electron
Microscope Visualization of Fluids Contained in Closed Multiwall Carbon
Nanotubes |
A. G. Yazicioglu, C. M. Megaridis, A. Nicholls,
Y. Gogotsi |
1.1.4 |
PIV |
| 239 |
Visualization
and measurement of the flow through a standard analyser used for quality
control of medical aerosol products |
P. J. Mendes/ J. F. Pinto, J. M. M. Sousa |
1.1.3 |
PIV |
| 184 |
Trajectory
and spreading of a buoyant jet in a counterflow |
W. Y. Lee, K. M. Lam |
1.1.2 |
PIV |
| 92 |
Time-resolved
identification of void fraction by single camera two-phase PIV |
D. Choi, J. Sung, J. Y. Yoo |
1.1.1 |
PIV |
| 128 |
EXTENSION
OF PARTICLE TRACKING TECHNIQUES FOR MONOCULAR WHOLE-FIELD SUPER-RESOLUTION
VELOCITY AND SCALAR MAPPING |
V. M. Zubtsov , A. V. Mikheev |
4.10.3 |
PIV |
| 122 |
The Influence
of Fan Rotational Speed and Pressure Drop on a Cross-Flow Fan by PIV |
S-B. Chiang, H-C. Chiang, M-C. Yen |
2.15.1 |
PIV |
| 102 |
Volumetric
characterization of airflow field in aircraft cabin using SPIV |
A. Wang, Y. Sun, Y. Zhang |
2.15.2 |
PIV |
| 247 |
Stereomicroscopic
Particle Image Velocimetry |
J. P. Giardino, J. R. Hertzberg |
4.8.1 |
PIV |
| 246 |
4D-PTV |
D- H. Doh, T- G. Hwang, Y- B. Cho, K. Okamoto |
4.10.2 |
PIV |
| 79 |
Reconstruction
of flow field in small-size half-zone liquid bridge by 3D PTV |
K. Noguchi, I. Ueno, S. Tanaka, H. Kawamura, K.
Nishino |
4.10.1 |
PIV |
| 15 |
APPLICATION
OF MODAL WAVELETS TO BUBBLY FLOW PIV IMAGE |
T. Yamazaki, M. Takei, Y. Saito, Y. A. Hassan,
J. O. Villafuerte |
4.8.3 |
PIV |
| 80 |
Dynamic
Calibration of Image Sensors for the Observation and Measurement of Flows |
D. Date, T. Watanabe |
4.8.2 |
PIV |
| 7 |
DOPPLER
PICTURE VELOCIMETRY (DPV) APPLIED TO HIGH-SPEED SHOCK TUNNEL FLOWS |
F. Seiler, A. George, M. Havermann, J. Srulijes |
4.1.1 |
PIV High Speed |
| 177 |
Preliminary
tests of a single camera DGV system in a supersonic wind tunnel |
P. Wernert, B. Martinez, T. Gauthier, D. Bidino |
4.1.2 |
PIV High Speed |
| 243 |
Instantaneous
Imaging of Highly Unstable Bow Shock Wave Caused by a Hypervelocity Projectile
with a Streamwise Nose Cavity |
H. Gunes, I. Fenerciogl, K. B. Yuceil |
4.1.3 |
PIV High Speed |
| 104 |
DPIV STUDY
OF WAKE-ROTOR INTERACTIONS IN A TRANSONIC COMPRESSOR UNDER VARIOUS OPERATING
CONDITIONS |
J. Estevadeordal, S. Gorrell, W. Copenhaver |
4.1.4 |
PIV High Speed |
| 144 |
Development
of a Fountain Flow From Twin-Impinging Compressible Jets |
P. M. Cabrita, A. J. Saddington, K. Knowles |
4.5.2 |
PIV Jet Flow |
| 140 |
Indeterminate
Origin Nozzles to Control Jets |
F. Shu, M. W. Plesniak, P. E. Sojka |
4.5.1 |
PIV Jet Flow |
| 24 |
FLOW LENGTH
SCALE ESTIMATATION USING PIV IN THE NEAR FIELD OF SMALL ASPECT RATIO ELLIPTIC
JET |
G. Ramesh, L. Venkatakrishnan, A. Prabhu |
2.8.3 |
PIV Jet Flow |
| 152 |
A LARGE
SCALE INVESTIGATION OF PULSED VORTEX GENERATOR JETS USING PIV |
K. Moore, M. Wolff, M. Polanka, R. Sondergaard |
2.8.2 |
PIV Jet Flow |
| 132 |
AERODYNAMIC
CHARACTERISATION OF THE INITIAL ZONE OF AN ANNULAR JET WITH A LARGE DIAMETER
RATIO |
G. Lalizel, P. Paranthoen, J. Yon, E. Rouland,
B. Patte-Rouland |
2.8.1 |
PIV Jet Flow |
| 149 |
Three
Dimensional Stereoscopic Imaging of a Pulsed Jet in Crossflow |
B. P. E. Dano, J. A. Liburdy |
3.7.1 |
PIV Jet Flows |
| 64 |
OBSERVATIONS
OF THE SPRAY PHENOMENA OF UNLIKE-DOUBLET IMPINGING JETS |
T. Yuan, C. Chen, Z. Y. Quan, B. Huang |
3.7.2 |
PIV Jet Flows |
| 248 |
In vitro
velocity measurement of red blood cell and plasma using high-speed micro
PIV technique |
Y. Sugii, R. Okuda, K. Okamoto |
3.8.2 |
PIV Medical Flows |
| 99 |
Dynamic
PIV Measurement of Pulsatile Flow in the Modeled Artery |
M. Oishi, M. Oshima, T. Saga, T. Kobayashi |
3.8.1 |
PIV Medical Flows |
| 93 |
Qualitative Visualization Studies
of Single- and Multi-Phase Plasma Flows in Micro-Tube/Channel Using Micro-PIV
Technique |
K. C. Kim, S. Y. Yoon, H. S. Ji |
3.8.3 |
PIV Medical Flows |
| 220 |
UNCERTAINTY
ANALYSIS OF PIV MEASUREMENT OF FLOW IN LUMINOUS FLAME USING ARTIFICIAL IMAGE |
S. Tomimatsu, N. Fujisawa, M. Kiuchi |
3.1.1 |
PIV Thermal |
| 72 |
Simultaneously
topology and temperature visualization of a transient thermocapillary flow |
J. A. Szymczyk, J. Aleksic |
3.1.4 |
PIV Thermal |
| 115 |
Characteristics
of PAH and Soot Formation for Various Fuels in Coflow Diffusion Flames |
S. S. Yoon, H. N. Ahn, S. M. Lee, S. H. Chung |
3.1.3 |
PIV Thermal |
| 242 |
STUDY
OF THE INLET FLOW FROM A FLAT CHANNEL INTO THE MICRO CHANNELS OF A HEAT
EXCHANGER USING BOTH Micro-PIV AND DNS |
V. Heinzel, U. Imke, A. Jianu, H. Sauter |
3.1.2 |
PIV Thermal |
| 60 |
SIMULTANEOUS
VELOCITY/CONCENTRATION MEASUREMENTS OF A TURBULENT WATER JET USING CPIV
AND CPLIF |
S. Bian, S. L. Ceccio, J. F. Driscoll |
2.5.1 |
PIV Turbulence |
| 148 |
Experimental
Study of Turbulent Mixing in a Confined Planar-Jet Reactor Using Combined
PIV and PLIF Techniques |
H. Feng, M. G. Olsen, J. C. Hill, R. O. Fox |
2.5.2 |
PIV Turbulence |
| 49 |
TRACKING
OF NANOPARTICLES USING EVANESCENT WAVE MICROSCOPY |
A. Banerjee, K. D. Kihm |
2.5.3 |
PIV Turbulence |
| 51 |
Spectral
Dynamics in a Boundary Layer with Microbubbles Injection |
J. A. Jimenez- Bernal, Y. A Hassan, C. C. Gutierrez-
Torres |
2.5.4 |
PIV Turbulence |
| 168 |
Measurements
of turbulence characteristics in various flow fields by means of PIV and
LDA |
T. Nomura, Y. Takahashi, T. Ishima, T. Obokata |
3.11.4 |
PIV Turbulence |
| 55 |
Flat plate
turbulent boundary layer under the action of a periodic forcing |
G. Iuso, G. M. Di Cicca, P. G. Spazzini, R. Malvano,
F. M. Audino, M. Onorato |
2.1.1 |
PIV Turbulence |
| 260 |
SPATIALLY
RESOLVED NEAR SURFACE MOTIONS IN THE ATMOSPHERIC BOUNDARY LAYER USING PIV |
P. E. Slaboch, S. R. Stolpa, S. C. Morris |
3.11.3 |
PIV Turbulence |
| 143 |
Reappearance
of Azimuthal Waves in Turbulent Taylor-Couette Flow |
L. Wang, M. G. Olsen, R. D. Vigil |
2.1.2 |
PIV Turbulence |
| 46 |
VISUALIZATION
OF BLUNT TRAILING EDGE TURBULENCE |
D. W. Shannon, S. C. Morris |
3.11.2 |
PIV Turbulence |
| 238 |
A New
Second Law based Loss Mapping with PIV for Turbulent flows |
O. B. Adeyinka, G. F. Naterer |
3.11.1 |
PIV Turbulence |
| 84 |
A Population
Study of Small-Scale Spanwise Vortices in Turbulent Channel Flow |
K. T. Christensen, Y. Wu |
2.1.4 |
PIV Turbulence |
| 45 |
LARGE-SCALE
FLOW VISUALIZATION AND PARTICLE IMAGE VELOCIMETRY IN CONVECTIVE AIRFLOW |
C. Resagk, R. du Puits, A. Thess, M. Raffel, J.
Bosbach, A. Aroussi |
2.1.3 |
PIV Turbulence |
| 43 |
VISUALIZATION
OF VORTICES AND FREE-SURFACE CONTOURS IN CHANNEL FLOW OVER UNDULATED BOTTOMS |
A. Wierschem, N. Aksel |
1.8.3 |
PIV Vortical Flows |
| 124 |
INTERACTION
OF ROTOR BLADE TIP VORTICES WITH SURFACE |
M. Saritas, E.Tinar, O. Cetiner |
1.8.1 |
PIV Vortical Flows |
| 218 |
Detailed
Vortex Structure on the Wake of Unsteady Airfoils |
M. Fuchiwaki, K. Tanaka |
1.8.2 |
PIV Vortical Flows |
| 52 |
Visualization
of vortex structure in a channel flow by means of PIV with microbubble injection |
Y. A. Hassan, C. C. Gutierrez- Torres, J. A. Jimenez-
Bernal |
1.8.4 |
PIV Vortical Flows |
| 98 |
VORTEX
SHEDDING PROCESS IN A SOLITARY WATER WAVE PASSING OVER A SUBMERGED RECTANGULAR
DIKE |
C. Lin, S- C. Chang, T- C. Ho, S- C. Hsieh, K- A.
Chang |
2.12.2 |
PIV Vortical Flows |
| 33 |
THE EXPERIMENTAL
RESEARCH ON UNSTEADY CHARACTERISTICS AND CONTROL TECHNIQUE |
Y. Jiang, H. Sun, Y. Huang, Z. Liu |
2.12.3 |
PIV Vortical Flows |
| 91 |
PIV measurements
of the locked-on secondary vortices behind a circular cylinder |
W. Kim, J. Sung, J. Y. Yoo |
2.12.1 |
PIV Vortical Flows |
| 125 |
SELF-INDUCED
PITCHING OSCILLATIONS OF AN AIRFOIL |
E.Tinar, O. Cetiner |
1.12.3 |
PIV Wakes |
| 135 |
EXPERIMENTAL
OBSERVATION OF VORTEX PATTERNS BEHIND A HEAVING AIRFOIL |
J. Buzard, K. von Ellenrieder |
1.12.2 |
PIV Wakes |
| 235 |
Development
of vortices from a circular cylinder oscillating in water |
K. M. Lam, H. L. Tam |
3.5.1 |
PIV Wakes |
| 256 |
Dynamic
PIV for High-Speed Mist Flow around an Obstacle
|
M. Ishikawa, K. Okamoto, H. Madarame |
3.5.2 |
PIV Wakes |
| 57 |
WAKE SURVEYS
OF AUTOMOBILE GEOMETRIES FOR DRAG BREAKDOWN USING 2D AND 3D PIV SYSTEMS |
I. Koc, C. P. Britcher |
3.5.3 |
PIV Wakes |
| 205 |
Experimental
evidence of anomalous diffusion and Levy Flights in a two-dimensional time
periodic flow |
S. Espa, A. Cenedese |
3.5.4 |
PIV Wakes |
| 53 |
A visual
study of the stratified flow over a ridge with a col |
M. Tatsuno, S. Nakatsuka, K. Ishi-i |
1.12.1 |
PIV Wakes |
| 78 |
A CONSIDERATION
ON HYDRAULIC FEATURES OF OPEN-CHANNEL FLOW WITH A VEGETATIVE EMBAYMENT |
T. Oikawa, T. Abe, A. Aihara |
P6 |
Poster |
| 114 |
JET NOISE
REDUCTION BY A CROSS WIRE DEVICE IN SUPERSONIC JET ISSUING FROM A CONVERGENT-DIVERGENT
NOZZLE |
Y-H. Kweon, Y. Miyazato, T. Aoki, H.-D. Kim, T.
Setoguchi |
P7 |
Poster |
| 129 |
The development
of volume-scanning three-dimensional visualization equipment using optical
multiple scattering events in disordered media by laser |
N. Takahashi, M. Komatsu, Y. Ishii, Y. Kubota, K.
Watanabe |
P8 |
Poster |
| 136 |
LDA measurements
through curved surfaces for validation of CFD simulations of flow in valve
body |
B. B. B. Jensen |
P9 |
Poster |
| 182 |
VISUALIZATION
OF THE ACTIVE ZONES AND FLOW VELOCITIES IN AN ULTRASONIC REACTOR USING 40KHZ
FREQUENCY |
A. Mandroyan, Y. Bailly , R. Viennet, L. Simonin,
M. L. Doche, J. Y. Hihn |
P10 |
Poster |
| 219 |
Numerical
Visualization of Rayleigh-Benard Flow in a Rarefied Gas by DSMC Method |
P- Y. Tzeng, M- H. Liu |
P11 |
Poster |
| 77 |
Melting
Characteristics of Phase Change Materials in Cylindrical Capsules with Porous
Metals |
H. Ogi, Y. Shiina, T. Inagaki |
P5 |
Poster |
| 70 |
Numerical
study of dual subsonic streams through a converging nozzle |
M. Yonamine, Y. Miyazato, M. Masuda, H. Katanoda,
K. Matsuo |
P3 |
Poster |
| 21 |
NUMERICAL
SIMULATION OF THE UNSTEADY SHOCK INTERACTION OF BLUNT BODY FLOWS |
L. A. Bazyma, V. M. Rashkovan |
P1 |
Poster |
| 56 |
The starting
flow in front of a prismatic obstacle |
D. Calluaud, L. David, A. Texier, G. Pineau |
P2 |
Poster |
| 26 |
ON THE
USE OF PHOSPHORS FOR FLOW MEASUREMENTS |
S. W. Allison, D. Garvey, M. R. Cates, S. M. Goedeke,
G. T. Gillies, W. A.
Hollerman |
1.7.2 |
Pressure / Temperature |
| 44 |
FLOW VISUALIZATION
AND SIMULTANEOUS VELOCITY AND TEMPERATURE MEASUREMENTS IN THE WAKE OF A
HEATED CYLINDER |
H. Hu, M. Koochesfahani |
1.7.3 |
Pressure / Temperature |
| 62 |
Image
processing technique for shear and pressure stress optical measurements |
V. S. Fonov, S. D. Fonov, G. Jones, J. Crafton |
1.7.1 |
Pressure / Temperature |
| 244 |
Development
of PIV-PSP Hybrid System |
K. Okamoto, S. Abe |
3.6.3 |
PSP / TSP |
| 207 |
A Low
Speed PSP Investigation on Laminar Airfoils |
A. Auletta |
1.9.4 |
PSP / TSP |
| 147 |
Visualization
of Internal Jet Mixing in a Fluidic Oscillator |
J. W. Gregory, J. P. Sullivan, S. Raghu |
3.6.2 |
PSP / TSP |
| 198 |
Electroluminescent
Foils as Illumination Source for Pressure Sensitive Paint |
S. Airaghi , T. Roesgen , M. Guille |
3.6.4 |
PSP / TSP |
| 61 |
Surface
pressure and shear force fields measurements using elastic polymeric film |
S. D. Fonov, L. P. Goss, G. E. Jones, J. W. Crafton,
V. S. Fonov, M. Ol |
1.9.2 |
PSP / TSP |
| 81 |
Assessment
of image registration interpolation methods for pressure-sensitive paint
measurements |
S-H. Park, H. J. Sung |
1.9.1 |
PSP / TSP |
| 217 |
Unsteady
pressure-field measuments by the fast-responding PSP on porous anodized
aluminum |
T. Kawakami, T. Tabei, M. Kameda, K. Nakakita,
K. Asai |
3.6.1 |
PSP / TSP |
| 32 |
TEMPERATURE
COMPENSATION IN TIME-RESOLVED PRESSURE MEASUREMENTS |
L. Goss, G. Jones, J. Crafton, S. Fonov |
1.9.3 |
PSP / TSP |
| 255 |
Crystal Growth Mass Transfer Inferred
via heat Transfer Measurements with Temperature-Sensitive Paint |
J. Bell, L. Hand |
3.12.3 |
PSP/ TSP |
| 245 |
Automated Pressure and Temperature
Sensitive Paint Measurements in a Cryogenic Wind Tunnel |
C. Obara, W. Goad, E. Massey, R. Bell, D. Sprinkle |
3.12.4 |
PSP/ TSP |
| 195 |
Using Temperature Sensitive Paint
Technology in a Hypervelocity Test Environment: Issues and Challenges |
M. Hamner, J. Norris |
3.12.2 |
PSP/ TSP |
| 230 |
ADVANCEMENT OF LUMINESCENT PAINT
TECHNOLOGY TOWARD PRODUCTION TESTS IN A CRYOGENIC WIND TUNNEL |
K. Asai, Y. Egami, Y. Iijima |
3.12.1 |
PSP/ TSP |
| 110 |
Flow visualization
and pressure measurement in micronozzles |
C-Y. Huang, J. P. Sullivan |
1.2.3 |
PSP/ TSP |
| 196 |
The Development of Pressure Sensing
Nano-materials |
M. Hamner |
1.2.2 |
PSP/ TSP |
| 141 |
Simultaneous
Measurements of Pressure and Deformation on a UCAV in the SARL |
J. Crafton, S. Fonov, E. G. Jones, L. Goss, C. Tyler |
1.2.4 |
PSP/ TSP |
| 173 |
Response
Time Characterization of Anodized Aluminum Pressure-Sensitive Paint |
H. Sakaue, Y. Sakamura, M. Kitamura, Y. Iijima,
T. Tabei, M. Kameda |
1.2.1 |
PSP/TSP |
| 142 |
Power
Filtering Technique for Modifying Depth of Correlation in MicroPIV Experiments |
M. G. Olsen, C. J. Bourdon, A. Gorby |
4.6.1 |
PTV |
| 58 |
Microsphere
Motion on Surfaces after Detachment by Turbulent Air Flows. |
A. H. Ibrahim, P. F. Dunn, R. M. Brach |
4.6.2 |
PTV |
| 209 |
3-D Particle
Tracking Velocimetry by using a Genetic Algorithm with New Strategy |
K. Ohmi, T. Nakaji |
4.6.3 |
PTV |
| 29 |
NUMERICAL
SOLUTION OF THE FLOW OF A SECOND ORDER FLUID BETWEEN TWO ENCLOSED ROTATING
DISCS WITH UNIFORM SUCTION AND INJECTION |
H.G. Sharma, K. S. Biradar |
2.14.1 |
Rotating flows |
| 154 |
Unsteady
Tip Leakage, Bow Shock, IGV Wake Interaction in a Compressor |
X. Zhou, M. Wolff |
2.14.2 |
Rotating flows |
| 203 |
Visualization of Flow in Microspiral
Pump |
C- J. Chen, P. Zheng, Y. Haik |
2.14.3 |
Rotating flows |
| 65 |
TRANSITION
SCENARIO OF FLOWS AROUND A ROTATING DISK IN A CYLINDRICAL ENCLOSURE WITH
RIM-CASING CLEARANCE |
T. Watanabe, T. Morisue, H. Furukawa, I. Nakamura |
2.14.4 |
Rotating flows |
| 157 |
TRANSIENT
SURFACE VISUALIZATION OF NEAR-WALL STRUCTURES IN REATTACHING SLOT JETS |
V. Narayanan, J. Seyed-Yagoobi , R. H. Page |
3.3.1 |
Schlieren |
| 76 |
THE PENN
STATE FULL-SCALE SCHLIEREN SYSTEM |
G. S. Settles |
1.10.2 |
Schlieren |
| 71 |
The multi-camera
video stroboscope - a versatile instrument for image based measurement techniques |
B. Stasicki, J. Kompenhans |
1.10.1 |
Schlieren |
| 201 |
Experimental
investigation of hot surface ignition on a flat plate |
V. R. Nenmeni, P. J. Disimile, N. Toy |
1.10.3 |
Schlieren |
| 75 |
Visualizing
Index-of-Refraction Variations in Optically Active Flow Fields |
D. Duffin, S. Gordeyev, E. Jumper |
3.3.3 |
Schlieren |
| 236 |
SURFACE
TEMPERATURE VISUALIZATION AND HEAT TRANSFER IN MICROSCALE JET IMPINGEMENT |
V. A. Patil, V. Narayanan |
3.3.2 |
Schlieren |
| 47 |
SOME RESULTS
OF A SIMPLE SHADOWGRAPH SYSTEM IN THE BOEING TRANSONIC WIND TUNNEL |
C. T. Nelson |
1.3.1 |
Schlieren |
| 34 |
THE EXPERIMENTAL
STUDY OF SHOCK WAVE THROUGH HILL INTERACTING WITH THREE DIMENSIONAL BODY |
L. Guo, H. Yang, J. Le |
1.3.2 |
Schlieren |
| 111 |
THERMAL
ANALYSIS OF ACTION MECHANISM ON NERVE SPECIMEN BY LASER IRRADIATION USING
THERMOGRAPHY |
N. Honjoe, M. Komatsu, Y. Ishii, S. Kogure, K.
Watanabe |
3.3.4 |
Schlieren |
| 200 |
Localized
temperature distribution in the vicinity of a pyrotechnic heat source |
R. B. Prasad, P. J. Disimile, N. Toy |
2.3.2 |
Shlieren |
| 121 |
Visualization
of flame structure of dilute hydrogen flame |
N. Fujisawa, S. Chinone, M. Kiuchi |
2.3.1 |
Shlieren |
| 20 |
THE IGNITION
AND FLAME PROPAGATION UNDER THE SUPER LEAN BURN OF METHANE IN THE CONSTANT
VOLUME CHAMBER |
K. Kondou, Y. Matsumoto, K. Mukai, T. Iijima |
2.3.3 |
Shlieren |
| 211 |
A Resonant
Pulse Detonation Actuator for High-Speed Boundary Layer Separation Control |
B. T. Beck, A. D. Cutler , J. P. Drummond, S.
B. Jones |
2.3.4 |
Shlieren |
| 14 |
USE OF
FLOW VISUALIZATION IN STUDYING TRAILING WAKE VORTEX ROLLUP PATTERNS |
V. R. Nikolic |
1.6.3 |
Smoke / Dye |
| 22 |
THEORETICAL
ANALYSIS AND DYE FLOW VISUALIZATION OF VORTEX IN TUBE WITH SINUSOIDAL CROSS-SECTION |
S. Srigrarom |
1.6.2 |
Smoke / Dye |
| 170 |
Spiraling
flow through bi-leaflet mechanical heart valve |
H. Harmoko, J. H. Yeo, S. Srigrarom |
1.6.1 |
Smoke / Dye |
| 36 |
VORTEX
BREAKDOWN IN AXIAL SWIRLED FLOW THROUGH A VERTICAL TUBE |
M. H. S. Aly |
1.6.4 |
Smoke / Dye |
| 150 |
PHASED
ARRAY ACOUSTIC IMAGING OF AN AIRFOIL TRAILING EDGE FLOW |
S. Olson, T. J. Mueller |
4.9.4 |
Technique Developments |
| 85 |
On a Graphics
Hardware-based Vortex Detection and Visualization System |
S. Stegmaier, T. Ertl |
4.9.3 |
Technique Developments |
| 101 |
A CCD
System for Capturing Wave Profiles in Deicer/Anti-Icer Fluids |
J. A. Smith, J. P. Sullivan |
4.9.2 |
Technique Developments |
| 106 |
Mobile
Aerial Tracking and Imaging System (MATRIS) for Aeronautical Research |
D. W. Banks, R. C. Blanchard, G. M. Miller |
4.9.1 |
Technique Developments |
| 206 |
Effect
of Reynolds-number on three-dimensional flow structures in channels with
symmetric sinusoidal wavy walls |
P. Gschwind, V. Kottke |
4.3.1 |
Trace Particles |
| 42 |
A NOVEL
TRACER FOR VIEWING FLOW AROUND SUBMERGED VEGETATION |
J. W. Hoyt |
4.3.2 |
Trace Particles |
| 8 |
CHARACTERISTICS
OF CHARGED SPRAYS GENERATED USING CHARGE INJECTION ELECTROSTATIC ATOMIZERS |
A. R. H. Rigit, J. S. Shrimpton |
4.3.3 |
Trace Particles |
| 31 |
THE FLOW
ON THE APEX OF A SHARP-EDGED DELTA WING |
N. G. Verhaagen, V. F. Kunst |
2.2.1 |
Vehicle flows |
| 87 |
Unsteady
Pressure Field around a Passenger Car Model |
H. Haijima, M. Takagi |
2.2.2 |
Vehicle flows |
| 174 |
HELICOPTER
BODY OPTIMIZATION |
M. C. Topal, H. Acar |
2.2.3 |
Vehicle flows |
| 90 |
Unsteady
Wakes of Motorcycle Scale-Models |
D. Akiyama, M. Takagi |
2.2.4 |
Vehicle flows |
| 250 |
DEVELOPMENT
OF SIMULTANEOUS MEASUREMENT SYSTEM FOR 3D-FLOW FIELDS AND 6D-MOTION FIELD
(A SOLVER FOR FLOW-STRUCTURE INTERACTIONS) |
D-H. Doh, J-W. Sang, Y-B. Cho, T-G. Hwang, C-S.
Park, Y-B. Pyeon |
2.13.2 |
Venturi flows |
| 175 |
OBSERVATION
OF SUSPENDED PARTICULATE IN A GLASS VENTURI |
D. Giddings, B. J. Azzopardi, A. Aroussi, S. J.
Pickering |
2.13.1 |
Venturi flows |
| 172 |
A visualisation
study of the effect of wall roughness on diffusion of near wall pollutants
in a turbulent boundary layer |
M. I. Khan, R. R. Simons, A. J. Grass |
1.13.3 |
Visualization |
| 161 |
Flow Field
Characteristics of an Optimized Multi-Bladed Horizontal Axis Wind Turbine |
M. A. Bennington, K. D. Visser |
1.13.2 |
Visualization |
| 69 |
Improvement
of an oil hydraulic ball valve using visualization technique |
T. Tsukiji, G. Matsumoto, S. Sakura, K. Nagata,
F. Yoshida |
1.13.1 |
Visualization |
| 197 |
Experimental
Study of High Pressure Sprays for SIDI Engines |
L. Allocca, S. Alfuso, A. De Vita, A. Montanaro,
P. Rosa |
2.11.2 |
Visualization |
| 108 |
Effect
of Charged Volume of Liquid on Flow Structure of Gas-Liquid Two Phase Flows
in a Horizontal Rotating Cylinder. |
Y. Suzuki, T. Iijima, Y. Tanida |
2.11.1 |
Visualization |
| 27 |
VISUAL
INFORMATION OF TAYLOR VORTEX FLOW WITH STRESS-FREE BOUNDARY CONDITION. |
H. Furukawa, T. Watanabe |
2.7.4 |
Vortices |
| 163 |
Flow Visualization
of Three-dimensional Structures in the Wake of Inclined Circular Cylinders |
K. Matsuzaki, M. Shingai, Y. Haramoto, M. Munekata,
H. Ohba |
2.7.3 |
Vortices |
| 54 |
Visualization
of vortical structures within an elongated cavity |
P. G. Spazzini, A. Piccato, G. Iuso, G. M. Di Cicca,
R. Malvano, M. Onorato |
2.7.2 |
Vortices |
| 193 |
Jomon
People discovered Twin and Karman Vortices |
Y. Nakayama, M. Oki, K. Aoki, S. Takayama |
2.7.1 |
Vortices |
