Add to ORKGThis contribution describes the development of a discrete adjoint solver for the harmonic balance method using the technique of algorithmic differentiation by operator overloading. Harmonic balance is a nonlinear frequency domain method which is suitable to simulate time dependent periodic phenomena as they occur for example in turbomachinery flows. The adjoint solver is implemented in the framework of an industrial turbomachinery flow solver and applied in this work to compute sensitivities of aeroelastic forces with respect to geometric changes of the blades in a turbine
Shape optimization in unsteady flow problems enables the consideration of dynamic effects on design....
An harmonic balance method for modeling unsteady nonlin-ear periodic flows in turbomachinery is pres...
The thesis documents the investigation of the application of the adjoint method to turbomachinery bl...
This paper describes the derivation and implementation of the discrete adjoint equations based on fr...
This paper describes the derivation and implementation of the discrete adjoint equations based on f...
This paper describes the development and initial application of an adjoint harmonic balance solver. ...
The analysis of aeroelastic properties is an important aspect in the design of turbomachinery compon...
This paper presents an overview of the steady and harmonic adjoint methods for turbomachinery design...
The possibility of taking into account unsteady flow effects if performing turbomachinery shape opti...
An overview is presented of the steady and harmonic adjoint methods for turbomachinery design using ...
In recent years, there has been rapid progress in aerodynamic optimization methods which use adjoint...
This paper summarizes work done within the framework of an adjoint multidisciplinary optimization fo...
This paper demonstrates how the worksum output produced by the linear harmonic ow analysis can be ob...
This paper presents an adjoint analysis for three-dimensional unsteady. viscous flows aimed at the c...
An implementation of a Harmonic Balance method to simulate time-periodic, non- linear flows in turbo...
Shape optimization in unsteady flow problems enables the consideration of dynamic effects on design....
An harmonic balance method for modeling unsteady nonlin-ear periodic flows in turbomachinery is pres...
The thesis documents the investigation of the application of the adjoint method to turbomachinery bl...
This paper describes the derivation and implementation of the discrete adjoint equations based on fr...
This paper describes the derivation and implementation of the discrete adjoint equations based on f...
This paper describes the development and initial application of an adjoint harmonic balance solver. ...
The analysis of aeroelastic properties is an important aspect in the design of turbomachinery compon...
This paper presents an overview of the steady and harmonic adjoint methods for turbomachinery design...
The possibility of taking into account unsteady flow effects if performing turbomachinery shape opti...
An overview is presented of the steady and harmonic adjoint methods for turbomachinery design using ...
In recent years, there has been rapid progress in aerodynamic optimization methods which use adjoint...
This paper summarizes work done within the framework of an adjoint multidisciplinary optimization fo...
This paper demonstrates how the worksum output produced by the linear harmonic ow analysis can be ob...
This paper presents an adjoint analysis for three-dimensional unsteady. viscous flows aimed at the c...
An implementation of a Harmonic Balance method to simulate time-periodic, non- linear flows in turbo...
Shape optimization in unsteady flow problems enables the consideration of dynamic effects on design....
An harmonic balance method for modeling unsteady nonlin-ear periodic flows in turbomachinery is pres...
The thesis documents the investigation of the application of the adjoint method to turbomachinery bl...