Aerodynamic design optimization using Euler equations and variational methods

The one-and two-dimensional inviscid Euler equations are formulated in an integro-differential form for shape design sensitivity analysis and optimization. The principal tool employed to derive the performance derivative sensitivity equations is the variational method, which is a continuous alternat

engineering experience with repeated experimental testing. This is often expensive, motivating computational methods The use of gradient-based optimization algorithms in inverse design is well established as a practical approach to aerodynamic which compute the optimal design directly. These method

Optimization and inverse design methods based on stochastic and, in particular, evolutionary algorithms, are currently being used in aeronautics since they offer a useful tool to help solving current and future technological problems. Despite their advantages, all of the population-based search algo

## Abstract This paper presents a numerical method for aerodynamic shape optimization problems in compressible viscous flow. It is based on simultaneous pseudo‐time stepping in which stationary states are obtained by solving the pseudo‐stationary system of equations representing the state, costate