Transonic corrections for the unsteady compressible Source and Doublet Panel Method

The steady and unsteady aerodynamic predictions of the Doublet Lattice Method (DLM) are routinely corrected for camber, twist, dihedral and transonic effects using steady reference data obtained from experiments or Computational Fluid Dynamic (CFD) calculations. In this work, a novel correction technique is presented for the unsteady compressible Source and Doublet Panel Method (SDPM) in order to correct for transonic effects. Although the SDPM is more computationally expensive than the DLM, it can predict the complete pressure distribution around both surfaces of the exact geometry of a wing. Consequently, it does not require corrections for geometric properties such as camber, twist and dihedral, only for transonic flow phenomena. The corrected predictions are compared to unsteady pressure distributions measured experimentally for the BSCW and LANN wings. It is shown that that the predictions of the SDPM correction method are accurate as long as the reference pressure data are of adequate quality.