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TEMPORAL ANALYSIS OF TRANSONIC FLOW
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To Dodjie 3
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TABLE OF CONTENTS ACKNOWLEDGMENTS .
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Summary ...........................
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LIST OF FIGURES Figure page 2-1 F-1
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6-9 Lissajous plots of upper surfac
- Page 13 and 14: 6-45 2-D (left column) and 3-D (rig
- Page 15 and 16: incrementally since this capability
- Page 17 and 18: are not sufficient to provide an an
- Page 19 and 20: 4. Contribute to the work of others
- Page 21 and 22: Classical aircraft flutter is chara
- Page 23 and 24: Popular methods for finding the sol
- Page 25 and 26: LCO amplitude but not the mechanism
- Page 27 and 28: speed for the particular configurat
- Page 29 and 30: Denegri 23 explains the flutter fli
- Page 31 and 32: Doublet-lattice Denegri 1, 7,12,13
- Page 33 and 34: Batina’s work and uses an F-16 ha
- Page 35 and 36: As a result of Denegri’s previous
- Page 37 and 38: Figure 2-1. F-16 store stations. Fi
- Page 39 and 40: Figure 2-5. Flutter flight test bui
- Page 41 and 42: Stokes (RANS) equations on hybrid u
- Page 43 and 44: CHAPTER 4 ANALYSIS TECHNIQUES Intro
- Page 45 and 46: time-localization cannot be determi
- Page 47 and 48: A B C D E Figure 4-3. Analysis of s
- Page 49 and 50: (CFD) analyses in order to capture
- Page 51 and 52: the appropriate time step for the n
- Page 53 and 54: Wing1, is the wing-only (no fuselag
- Page 55 and 56: similar to DES but with modificatio
- Page 57 and 58: Figure 5-1. Time step comparison of
- Page 59 and 60: A B Figure 5-3. Flow results for 8
- Page 61 and 62: A B Figure 5-5. Flow results for 8
- Page 63: Figure 5-7. Turbulence model compar
- Page 67 and 68: Figure 5-11. CFD vs. wind tunnel co
- Page 69 and 70: Figure 5-13. CFD vs. wind tunnel co
- Page 71 and 72: server cluster comprised of 5,120 p
- Page 73 and 74: of oscillation. The 88% span locati
- Page 75 and 76: since it is proportional to lift, a
- Page 77 and 78: of phase. Figure 6-10 B) and D) are
- Page 79 and 80: The instantaneous Cp measurements p
- Page 81 and 82: D Lissajous plots with time being t
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- Page 87 and 88: near 70% chord and the second near
- Page 89 and 90: expected from a lift curve slope. A
- Page 91 and 92: shape of this Lissajous is nonlinea
- Page 93 and 94: occurring at harmonics, and assumes
- Page 95 and 96: the same direction of rotation on t
- Page 97 and 98: the roll cycle, and the black arrow
- Page 99 and 100: B) shows the fast Fourier transform
- Page 101 and 102: is that shock separation aft of the
- Page 103 and 104: on the upper surface, a much larger
- Page 105 and 106: Figure 6-1. F-16 wing planform with
- Page 107 and 108: A C B Figure 6-4. DDES of F-16 in s
- Page 109 and 110: Cp (Non-dimensional) Cp (Non-dimens
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-Cp (Non-dimensional) A Time (sec)
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A B Figure 6-14. DDES-SARC of F-16
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Cp (Non-dimensional) Cp (Non-dimens
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Figure 6-18. Lissajous plots of upp
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-Cp (Non-dimensional) Frequency (Hz
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-Cp (Non-dimensional) A Frequency (
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A B Figure 6-24. DDES-SARC of F-16
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Cp (Non-dimensional) Cp (Non-dimens
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Cp (Non-dimensional) Cp (Non-dimens
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-Cp (Non-dimensional) A -Cp (Non-di
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-Cp (Non-dimensional) A -Cp (Non-di
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-Cp (Non-dimensional) A Time (sec)
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-Cp (Non-dimensional) A Time (sec)
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-Cp (Non-dimensional) A Time (sec)
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A B D Figure 6-40. DDES of F-16 in
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Cp (Non-dimensional) Cp (Non-dimens
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Figure 6-44. Lissajous plots of upp
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-Cp (Non-dimensional) A Time (sec)
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-Cp (Non-dimensional) A Time (sec)
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A B Figure 6-50. DDES-SARC of F-16
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Figure 6-52. Lissajous plots of upp
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Impact on Future Design of Aircraft
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The size of the Mach=1 iso-surface
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these cases in order to identify th
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15. Dawson, K. S., and Sussinham, J
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41. Thomas, J. P., Dowell, E. H., a
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67. Cunningham, A. M., Jr., and den
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93. Parker, G. H., Maple, R. C., an
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121. Travin, A. K., Shur, M. L., Sp