Nail K. Yamaleev scite author profile

An adjoint-based methodology for design optimization of unsteady turbulent flows on dynamic unstructured grids is described. The implementation relies on an existing unsteady three-dimensional unstructured grid solver capable of dynamic mesh simulations and discrete adjoint capabilities previously developed for steady flows. The discrete equations for the primal and adjoint systems are presented for the backward-difference family of time-integration schemes on both static and dynamic grids. The consistency of sensitivity derivatives is established via comparisons with complex-variable computations. The current work is believed to be the first verified implementation of an adjoint-based optimization methodology for the true time-dependent formulation of the Navier-Stokes equations in a practical computational code. Large-scale shape optimizations are demonstrated for turbulent flows over a tiltrotor geometry and a simulated aeroelastic motion of a fighter jet. = cost function component weight 1 = quantity at freestream conditions * = target quantity

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Entropy Stable Summation-by-Parts Formulations for Compressible Computational Fluid Dynamics

Carpenter

Fisher

Nielsen

et al. 2016

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Nail K. Yamaleev

Discretely conservative finite-difference formulations for nonlinear conservation laws in split form: Theory and boundary conditions

Third-order Energy Stable WENO scheme

A systematic methodology for constructing high-order energy stable WENO schemes

Discrete Adjoint-Based Design Optimization of Unsteady Turbulent Flows on Dynamic Unstructured Grids

Entropy Stable Summation-by-Parts Formulations for Compressible Computational Fluid Dynamics

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