DOI: 10.22215/etd/2007-08248
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Particle image velocimentry measurements of an airfoil-vortex interaction event in a two-dimensional wind tunnel

Abstract: P a r tic le Im a g e V e lo c im e tr y M e a su r e m e n ts o f an A irfo il-V o rtex In te r a c tio n E v en t in a T w o-D im e n sio n a l W in d T u n n el by W esley M. B u rw ash, B .S c. E ngin eerin g P h y sics A Thesis subm itted to the Faculty of G rad u ate Studies and Research in p a rtial fulfilment of th e requirem ents for the degree of M a ster o f A pp lied Science in A erosp ace E ngineering O ttaw a-C arleton In stitu te for M echanical and Aerospace Engineering D epartm ent of M echani… Show more

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Cited by 3 publications
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“…Situated after the 12:1 contraction is a It should be noted that initial trials were conducted in the 2D Transverse Vortex Wind Tunnel, located in Room ME2140 at Carleton University. This tunnel is capable of velocities up to approximately 80 m/s [119,120] allowing for higher Reynolds number testing, however, several issues were encountered which deemed it unsuitable. Firstly, the narrow cross-section meant that very low aspect ratio airfoils must be used.…”
Section: Wind Tunnel Facility and Equipmentmentioning
confidence: 99%
“…Situated after the 12:1 contraction is a It should be noted that initial trials were conducted in the 2D Transverse Vortex Wind Tunnel, located in Room ME2140 at Carleton University. This tunnel is capable of velocities up to approximately 80 m/s [119,120] allowing for higher Reynolds number testing, however, several issues were encountered which deemed it unsuitable. Firstly, the narrow cross-section meant that very low aspect ratio airfoils must be used.…”
Section: Wind Tunnel Facility and Equipmentmentioning
confidence: 99%
“…Abstract iii Table 3-1: Example tracer particles for gaseous flows [21] Table 4-1: Grids tested for convergence analysis Table 4-2: Grids tested for plunging convergence analysis Table 5-1: Test Matrix Table 5-2: Optimal PIV parameters as defined by Burwash [3] Table 5-3: Vortex strength error analysis Table 5-4: Sources of relative experimental error in calculating ACL ND Figure 2-11: Schematic of the three-dimensional BVI apparatus by Cadadonna [19] 16 Figure 3-1: Typical two-dimensional Particle Image Velocimetry (PIV) apparatus [20]. 17 Figure 3-2: PIV image capture (A), interrogation region selection (B), correlation (C), vector generation (D) [3] 19…”
Section: Table Of Contentsmentioning
confidence: 99%
“…Conversely, the resolution can be increased by capturing less of the flow field at once, thereby capturing more unique tracer particles. For a comprehensive review of PIV theory, including additional information on tracer particles, laser theory, CCD cameras, and post-processing, see Burwash [3]. For a comprehensive guide to the usage of the PIV system in the tunnel outlined in Chapter 4, see Appendix A.…”
Section: Imaging Optics Image Planementioning
confidence: 99%
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