UC6 - Active Control for Drag Reduction of Transonic Airfoils

UC6 is exploring a promising method for drag reduction using quality Direct Numerical Simulations, addressing the challenge of reducing fuel consumption and CO2 emissions in aviation. 

The Challenge

Direct numerical simulation of turbulent flows at moderately high Reynolds numbers is a challenging endeavour due to the high computational cost, complex data analysis, and mesh generation.

Aim

Several drag-reduction strategies exist, but few are applied due to cost. Promising methods include increasing wing efficiency to cut fuel use, notably with streamwise-traveling waves on the wing's suction side. Studies often overlook benefits in transonic conditions, where shockwaves occur, yet high-fidelity simulations show potential cost benefits.

Development

The project aims to enhance the FLEW solver for compressible flows. It uses finite difference methods including shock-capturing methods and energy-preserving algorithms. Upgrades are undergoing to include GPU support, improved scalability, in situ visualization, and workflow enhancements for exascale computing.

 Benefits

Reducing the gap between high-fidelity simulations and realistic parameters will allow us to extract physically reliable results and understand the mechanism underlying the airfoil control strategy.