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Abstract
Motivated by a developmental approach of using micro-actuated surface protrusions to control/maneuver slender bodies in supersonic flight, this paper presents a detailed study of a two dimensional laminar supersonic flow over a flat plate with a surface protrusion. The flow field is computed by solving the Navier-Stokes equations using the finite difference method with the particle velocity upwinding scheme (PVUS) for spatial discretization, and the explicit Mac Cormack scheme for temporal integration. A range of free stream Mach numbers (2.0 - 4.5), Reynolds numbers (1000 - 100000) and protrusion heights (0.866% to 8.66% of the characteristic length) has been considered for a thorough parametric study. The parametric study indicates that the oblique shock structure and strength are influenced by all the variables to varying extents. However, the shock location is substantially altered by the protrusion height, Reynolds number, and protrusion shape, while the influence of Mach number is only marginal. An increase in the protrusion height results in an increased wall pressure as well as increased separation lengths on both sides of the protrusion. In contrast, an increase in Mach number increases the wall pressure, but moves the separation point marginally towards the protrusion. Increase in Reynolds number and protrusion bluffness (triangular → trapezoidal → rectangular) increases separation lengths on both sides of the protrusion. In addition to taking a close look at the flow physics, particularly in the protrusion vicinity, considerable attention has also been devoted to important design parameters such as wall pressure, skin friction and the overall normal and tangential force coefficients.
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References
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- System", McGrawHill, New York, 1995.
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References
Anderson, B.H., Jon Tinapple and Lewis Surber., "Optimal Control of Shock Wave Turbulent Boundary Layer Interactions using Micro Array Actuation", 3 rd AIAA Flow Control Conference, 5 - 8 June 2006, San Francisco, California.
Adam Huang., James Lew., Yong Xu., Yu- Chong Tai and Chih- Ming Ho., "Micro Sensors and Actuators for Macro Fluidic Control", IEEE Sensors Journal, Vol.4. No.4 August, 2004, pp.494-501.
Mehul, P. Patel., Javier Lopera and Terry T. Ng., "Active Boat Tailing and Aerodynamic Control Fins for Maneuvering Weapons", 2nd AIAA Flow Control Conference, 28 June to 01 July, 2004, Portland, OR.
Smith, F.T., "Laminar Flow Over a Small Hump on a Flat Plate", Journal of Fluid Mechanics, Vol. 57, No.4, March, 1973, pp.803-824.
Dolling D.S. and Murphy M.T., "Unsteadiness of the Separation Shock Wave Structure in a Super Sonic Compression Ramp Flow Field", AIAA Journal, Vol.21. No.12, December, 1983, pp.1628-1634.
Chapman, D. R., Kuehn, D. M. and Larson, H. K., "Investigation of Separated Flows in Supersonic and Subsonic Streams with Emphasis on the Effect of Transition", NACA TR 1356, 1957.
Efimtsov, B. M., Rizzi, S. A., Andersson, A. O. and Andrianov, E. V., "Influence of Small Steps on Wall Pressure Fluctuation Spectra Measured on TU144LL Flying Laboratory", AIAA Paper 2002-2605, June, 2002.
Carter, J.E., "Numerical Solution of the NavierStrokes Equation for the Supersonic Laminar Flow over Two Dimensional Compression Corner", NASA TR R-385, 1972.
Degani, D. and Stegger, J.L., "Comparison Between Navier-Stokes and Thin Layer Computations for Separated Supersonic Flow", AIAA Journal, Vol.21, No.11, 1983, pp.1604-1606.
Hung, C. M. and Mac Cormack, R. W., "Numerical Solutions of Supersonic and Hypersonic Laminar Compression Corner Flows", AIAA Journal, Vol.14, No.4, 1976, pp.475-481.
Qamar, A., Hasan, N. and Sanghi, S., "New Scheme for the Computation of Compressible Flows", AIAA Journal, Vol.44, No.5, May, 2006.
Qamar, A., "Numerical Investigations of the Flow Past Axisymmetric Surface Protuberances Using a
New Computational Scheme", Ph.D Thesis, Indian Institute of Technology Delhi, December, 2007.
Hoffman, K. A. and Chiang., "Computational Fluid Dynamics for Engineers, Engineering Education
System", McGrawHill, New York, 1995.
Lewis, J. E., Kubota, T. and Lees, L., "Experimental Investigation of Supersonic Laminar, Two Dimensional Boundary Layer Separation in a Compression Corner with and without Cooling" AIAA Journal,
Vol.6, No.1, January, 1968, pp.7-14.
Anderson, J. D., Computational Fluid Dynamics, McGrawHill, New York, 1995.
Laney, C. B., Computational Gas Dynamics, Cambridge University Press, Cambridge, England, U.K,