The DLR inverse design code computes the wing geometry for a prescribed target pressure distribution. It is based on the numerical solution of the integral inverse transonic small perturbation (TSP) equations. In this work, several extensions and modifications of the inverse design code are described. Results are validated with corresponding redesign test cases. The first modification concerns applications for high transonic Mach numbers or cases with strong shocks. The introduced modifications enable converged design solutions for cases where the original method failed. The second modification is the extension of the code to general non-planar wings. Previously, the design code was restricted to non-planar wing designs with small dihedral ...
The aerodynamic inverse design approach consists of finding the ge-ometry that produces a desired (t...
The design of shockless airfoils that are appropriate for experimental work on a supersonic transpor...
In the present work natural laminar flow (NLF) and hybrid laminar flow (HLF) wing designs are presen...
The DLR inverse design code computes the wing geometry for a prescribed target pressure distribution...
In recent years the DLR inverse design code has often been used to design wings for transonic transp...
A design method for transonic airfoils and wings based on the solution of the Euler-/Navier-Stokes e...
Several inverse methods were compared and initial results indicate that differences in results are p...
An inverse wing design method was developed around an existing transonic wing analysis code. The ori...
The direct-inverse technique was developed into a numerical method, called TRANDES, that is suitable...
A numerical technique for designing transonic airfoils having a prescribed pressure distribution (th...
A direct-inverse approach to the transonic design problem was presented in its initial state at the ...
A mixed analysis inverse procedure based on the full potential equation in conservation form was dev...
A new multipoint inverse design method to improve aerodynamic performance of transonic transport win...
A design method for transonic wings based on the solution of the Euler/Navier-Stokes equations is de...
A hybrid inverse/direct-optimization method for subsonic/transonic airfoil and wing shape design is ...
The aerodynamic inverse design approach consists of finding the ge-ometry that produces a desired (t...
The design of shockless airfoils that are appropriate for experimental work on a supersonic transpor...
In the present work natural laminar flow (NLF) and hybrid laminar flow (HLF) wing designs are presen...
The DLR inverse design code computes the wing geometry for a prescribed target pressure distribution...
In recent years the DLR inverse design code has often been used to design wings for transonic transp...
A design method for transonic airfoils and wings based on the solution of the Euler-/Navier-Stokes e...
Several inverse methods were compared and initial results indicate that differences in results are p...
An inverse wing design method was developed around an existing transonic wing analysis code. The ori...
The direct-inverse technique was developed into a numerical method, called TRANDES, that is suitable...
A numerical technique for designing transonic airfoils having a prescribed pressure distribution (th...
A direct-inverse approach to the transonic design problem was presented in its initial state at the ...
A mixed analysis inverse procedure based on the full potential equation in conservation form was dev...
A new multipoint inverse design method to improve aerodynamic performance of transonic transport win...
A design method for transonic wings based on the solution of the Euler/Navier-Stokes equations is de...
A hybrid inverse/direct-optimization method for subsonic/transonic airfoil and wing shape design is ...
The aerodynamic inverse design approach consists of finding the ge-ometry that produces a desired (t...
The design of shockless airfoils that are appropriate for experimental work on a supersonic transpor...
In the present work natural laminar flow (NLF) and hybrid laminar flow (HLF) wing designs are presen...