Pré-Publication, Document De Travail Année : 2025

SPARSE SURFACE PRESSURE-BASED RECONSTRUCTION OF THE FLOW AROUND A THICK AIRFOIL OVER A RANGE OF ANGLES OF ATTACK

Résumé

We present an efficient neural-based approach to estimate the instantaneous flow field around an airfoil from limited surface pressure measurements. The model, denoted SNN-POD, relies on two independent shallow neural networks to predict the instantaneous flow over a wide range of angles of attack [10°,20°]. At all angles the global model correctly recovers the average characteristics of the flow from single-time sensor data, thus allowing combination with local, angle-dependent models. The method is applied to 2D URANS simulations of a thick airfoil at a Reynolds number of Re=4.5e6. The training set consists of snapshots obtained from a coarse sampling (1-2°) of the angle of attack range. A variance-based criterion is used to determine the number and positions of sensors. Tests are carried out for unseen snapshots at angles of attack within the set (sampled angles) as well as outside the set (interpolated angles). The maximum MSE error of attack for sampled and interpolated angles is respectively 2.9% and 6.6%. This makes it possible to develop adaptive strategies to improve the estimation if necessary.

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Dates et versions

hal-05325196 , version 1 (23-10-2025)

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Identifiants

  • HAL Id : hal-05325196 , version 1

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Quentin Bucquet, Bérengère Podvin, Caroline Braud, Emmanuel Guilmineau. SPARSE SURFACE PRESSURE-BASED RECONSTRUCTION OF THE FLOW AROUND A THICK AIRFOIL OVER A RANGE OF ANGLES OF ATTACK. 2025. ⟨hal-05325196⟩
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