Test Data AC1-09: Difference between revisions
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==Description of Experiment== | ==Description of Experiment== | ||
The experiment of TU München is described in detail by Furman and Breitsamter | The experiment of TU München is described in detail by [[Test_Data_AC1-09#1|Furman and Breitsamter (2009)]]. | ||
(2009). It has been performed in a low-speed wind tunnel of closed-return type | It has been performed in a low-speed wind tunnel of closed-return type | ||
with an open test section. The following measurement techniques have been used | with an open test section. The following measurement techniques have been used | ||
for the considered conditions: | for the considered conditions: | ||
*Steady surface pressure taps (sampling rate of 100 Hz, averaging time of 10 s). | |||
*Unsteady surface pressure sensors (sampling rate of 2000 Hz, sample time of 40 s). | |||
Steady surface pressure taps (sampling rate of 100 Hz, averaging time of 10 s). | *Stereo Particle Image Velocimetry (Stereo-PIV) to measure time-averaged velocities. | ||
*Hot-Wire Anemometry (HWA) to measure velocity fluctuations. | |||
Unsteady surface pressure sensors (sampling rate of 2000 Hz, sample time of 40 | *Oil-flow visualization of the surface streamlines. | ||
s). | |||
Stereo Particle Image Velocimetry (Stereo-PIV) to measure time-averaged | |||
velocities. | |||
Hot-Wire Anemometry (HWA) to measure velocity fluctuations. | |||
Oil-flow visualization of the surface streamlines. | |||
==Boundary Data== | ==Boundary Data== | ||
Line 33: | Line 24: | ||
above. The experimenters give the following indications for the uncertainty | above. The experimenters give the following indications for the uncertainty | ||
in the free stream: | in the free stream: | ||
*uncertainty in free stream direction less than 0.2°, | |||
*static pressure variations along tunnel axis less than 0.4%, | |||
uncertainty in free stream direction less than | *uncertainty in temporal and spatial mean velocity distribution less than 0.6%. | ||
static pressure variations along tunnel axis less than 0.4 | |||
uncertainty in temporal and spatial mean velocity distribution less than 0.6 | |||
Furthermore, the free stream turbulence intensity is stated to be less than | Furthermore, the free stream turbulence intensity is stated to be less than | ||
0.4 | 0.4%. | ||
==Measurement Errors== | ==Measurement Errors== | ||
Line 53: | Line 39: | ||
The measured data consists of the following set: | The measured data consists of the following set: | ||
*Steady surface pressure measurements at five chord stations [[Media:AC1-09_sdelta_cp_24_23.jpg|(plots)]]:<br /><math>{x/c_r = 0.2}</math> [[Media:AC1-09_sdelta_cp_2402.dat|(data)]], <math>{0.4}</math> [[Media:AC1-09_sdelta_cp_2404.dat|(data)]], <math>{0.6}</math> [[Media:AC1-09_sdelta_cp_2406.dat|(data)]], <math>{0.8}</math> [[Media:AC1-09_sdelta_cp_2408.dat|(data)]], and <math>{0.95}</math> [[Media:AC1-09_sdelta_cp_24095.dat|(data)]].<br /> | |||
*Unsteady surface pressure measurements at four chord stations [[Media:AC1-09_sdelta_cprms_24_23.jpg|(plots)]]:<br /><math>{x/c_r = 0.4}</math> [[Media:AC1-09_sdelta_cprms_2404.dat|(data)]], <math>{0.6}</math> [[Media:AC1-09_sdelta_cprms_2406.dat|(data)]], <math>{0.8}</math> [[Media:AC1-09_sdelta_cprms_2408.dat|(data)]], and <math>{0.95}</math> [[Media:AC1-09_sdelta_cprms_2495.dat|(data)]].<br /> | |||
*Mean velocity field and fluctuating velocity field at three cross planes [[Media:AC1-09_README.dat|(README)]]:<br /><math>{x/c_r = 0.4}</math> [[Media:AC1-09_sdelta_flowfield_23_40.dat|(data)]], <math>{0.6}</math> [[Media:AC1-09_sdelta_flowfield_23_60.dat|(data)]], and <math>{0.8}</math> [[Media:AC1-09_sdelta_flowfield_23_80.dat|(data)]].<br /> | |||
==References== | ==References== | ||
#<div id="1">A. Furman and Ch. Breitsamter (2008) Turbulent and unsteady flow characteristics of delta wing vortex systems, AIAA Paper 2008-0381.</div> | |||
#<div id="2">A. Furman and Ch. Breitsamter (2009) Experimental investigations on the VFE-2 configuration at TU Munich, Germany. Chapter 21 in: Understanding and Modeling Vortical Flows to Improve the Technology Readiness Level for Military Aircraft, RTO-TR-AVT-113, NATO RTO. http://ftp.rta.nato.int/public/PubFullText/RTO/TR/RTO-TR-AVT-113/TR-AVT-113-12.pdf.</div> | |||
<br/> | <br/> | ||
---- | ---- | ||
{{ACContribs | {{ACContribs | ||
|authors=J.C. Kok, H. van der Ven, E. Tangermann, S. Sanchi, A. Probst, L. Temmerman | |authors=J.C. Kok, H. van der Ven (National Aerospace Laboratory NLR Amsterdam, The Netherlands), E. Tangermann (Airbus Defence and Space München, Germany), S. Sanchi (Computational Fluids and Structures Engineering Lausanne, Switzerland), A. Probst and K.A. Weinman (German Aerospace Center DLR Göttingen, Germany), L. Temmerman (NUMECA International Brussels, Belgium) | ||
|organisation= | |organisation= | ||
}} | }} | ||
{{ACHeader | {{ACHeader |
Latest revision as of 15:18, 11 February 2017
Vortex breakdown above a delta wing with sharp leading edge
Application Challenge AC1-09 © copyright ERCOFTAC 2024
Description of Experiment
The experiment of TU München is described in detail by Furman and Breitsamter (2009). It has been performed in a low-speed wind tunnel of closed-return type with an open test section. The following measurement techniques have been used for the considered conditions:
- Steady surface pressure taps (sampling rate of 100 Hz, averaging time of 10 s).
- Unsteady surface pressure sensors (sampling rate of 2000 Hz, sample time of 40 s).
- Stereo Particle Image Velocimetry (Stereo-PIV) to measure time-averaged velocities.
- Hot-Wire Anemometry (HWA) to measure velocity fluctuations.
- Oil-flow visualization of the surface streamlines.
Boundary Data
The free stream is defined by the Mach number and angle of attack as specified above. The experimenters give the following indications for the uncertainty in the free stream:
- uncertainty in free stream direction less than 0.2°,
- static pressure variations along tunnel axis less than 0.4%,
- uncertainty in temporal and spatial mean velocity distribution less than 0.6%.
Furthermore, the free stream turbulence intensity is stated to be less than 0.4%.
Measurement Errors
For the different measurement techniques employed (pressures sensors, HWA, stereo-PIV) no information on measurement uncertainties is given by the experimenters.
Measured Data
The measured data consists of the following set:
- Steady surface pressure measurements at five chord stations (plots):
(data), (data), (data), (data), and (data). - Unsteady surface pressure measurements at four chord stations (plots):
(data), (data), (data), and (data). - Mean velocity field and fluctuating velocity field at three cross planes (README):
(data), (data), and (data).
References
- A. Furman and Ch. Breitsamter (2008) Turbulent and unsteady flow characteristics of delta wing vortex systems, AIAA Paper 2008-0381.
- A. Furman and Ch. Breitsamter (2009) Experimental investigations on the VFE-2 configuration at TU Munich, Germany. Chapter 21 in: Understanding and Modeling Vortical Flows to Improve the Technology Readiness Level for Military Aircraft, RTO-TR-AVT-113, NATO RTO. http://ftp.rta.nato.int/public/PubFullText/RTO/TR/RTO-TR-AVT-113/TR-AVT-113-12.pdf.
Contributed by: J.C. Kok, H. van der Ven (National Aerospace Laboratory NLR Amsterdam, The Netherlands), E. Tangermann (Airbus Defence and Space München, Germany), S. Sanchi (Computational Fluids and Structures Engineering Lausanne, Switzerland), A. Probst and K.A. Weinman (German Aerospace Center DLR Göttingen, Germany), L. Temmerman (NUMECA International Brussels, Belgium) — '
© copyright ERCOFTAC 2024