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Home News Latest RBF Morph at International CAE Conference 2012

RBF Morph at International CAE Conference 2012

RBF Morph has been present at the International CAE Conference 2012 on the 22th and 23th of October in Lazise (VR) - Hotel Parchi del Garda with the paper Optimization of wing efficiency vs. sweep angles using mesh morphing by M.E. Biancolini, U. Cella, M. Mancini & G. Travostino.The paper contains the results of a joint research between Piaggio Aero and the University of Rome Tor Vergata.


Abstract: Optimization of wing efficiency vs. sweep angles using mesh morphing

This study has been conducted within a Research partnership active since 2009 between Piaggio Aero Industries & University of Rome Tor Vergata addressed to the solution of the aeroelastic problem using the mesh morphing software RBF Morph and recently extended to shape optimization methods. A wind tunnel model of a business class aircraft in complete configuration validated using experimental data from a test campaign performed by Piaggio in the ONERA S2MA transonic facility is considered as the baseline geometry. Sweep angles are changed for both wing sections keeping the leading edges straight, preserving the wing area imposing relative movement between root section, kink section and wing tip using an accurate two step morphing strategy. A first RBF solution is used to reshape the wing (step 1), the set-up is then completed limiting the morphing domain with a box and constraining other surfaces (s tep 2). The quality of the mesh is verified in advance for full range of both modifiers. The baseline Fluent model is iterated until a good convergence is achieved (1500 its). Such model is then parameterized using custom parameters to update shape at initialization; each shape is calculated (500 its) starting from converged flow solution of baseline. Drag and Lift are exported as output parameters (Cd, Cl). Shape parameters (eps-1, eps-2) are steered from Workbench whilst efficiency is computed as a derived parameter. MOGA algorithm is used on Kriging response surface (optimal space filling points + validated optimal candidates). As expected slight improvements are achieved (less than 1%) with respect to the baseline, already optimized for the same flight condition; nevertheless a wide variation range of efficiency (25%) is observed in the design space, near the maximum the optimal area exhibits a flat behavior.









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