Yu, Jianzhong and Paraschivoiu, I and Saeed, Farooq (2004) An Iterative Inverse Design Method Based on Aerodynamic Streamline Equations. AIAA Journal of Aircraft, 41 (4). pp. 821-828.
|PDF (Iterative Design Journal Paper)|
Aerodynamic characteristics are very sensitive to airfoil leading-edge geometry, and its accurate treatment is a limitation of many existing design methods. The objective of the present research is to develop an interactive inverse design method that is not only efficient but can also treat the leading-edge region accurately. In the formulation of the method, a small-perturbation geometric equation is deduced from the streamline momentum equations, the continuity equation, and the isentropic relations with the geometry similarity assumption of near streamlines to the airfoil surface. Moreover, the transonic correction is considered in the aforementioned equation with the assumption for the effects of waves reflected from the free surface (sonic line) because the method based on the surface flow values cannot take into account the transonic characteristics such as wave interference. The geometric perturbation normal to the airfoil surface is then calculated by solving this second-order initial value ordinary differential equation iteratively to obtain an airfoil design. Techniques such as airfoil smoothing, nonuniform relaxation, and the strained coordinate transfer are employed to accelerate convergence. The airfoil design cases demonstrate the remarkable efficiency and accuracy of the method not only for compressible flows but also for low-speed flows. Moreover, the method allows the leading-edge shape to be determined accurately and, thus, to overcome the deficiency of many of the related methods.
|Date:||01 July 2004|
|Creators:||Yu, Jianzhong and Paraschivoiu, I and Saeed, Farooq|
|Email:||UNSPECIFIED, UNSPECIFIED, email@example.com|
|Deposited By:||Dr. FAROOQ SAEED|
|Deposited On:||30 Mar 2008 11:16|
|Last Modified:||12 Apr 2011 13:06|
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