In the present work an extension of an aerodynamic optimization system for inverse design is carried out. The new abilities of the system are tested. Inverse designs with prescribed pressure distributions lead to very good agreement between resulting and expected geometries and flow fields. No substantial influence of start point, first search vector and constraints is found
A study was performed to evaluate the effects of different flow solvers, optimization methods, and d...
The aerodynamic design of classical and innovative nozzle concepts is investigated by an inverse me...
Design optimization using high-fidelity computational fluid dynamics simulations is becoming increas...
The aerodynamic inverse design approach consists of finding the ge-ometry that produces a desired (t...
Design optimization methods using high-fidelity computational fluid dynamics simulations are becomin...
The increasing popularity of high fidelity computational fluid dynamics simulations in aerodynamic d...
The inverse design method of aerodynamic configuration is hard to give a reasonable pressure distrib...
A classical inverse problem in fluid dynamics, i.e., determine the geometry of an airfoil given the ...
The engineering problem of airfoil design has been of great theoretical interest for almost a centur...
Some ideas for using hodograph theory, mapping techniques and methods of characteristics to formulat...
The feasibility of the use of the Navier-Stokes equations in aerodynamic design is examined. The Nav...
This contribution focuses on the importance of preprocessing tools for successful design and optimiz...
With the increasing of computational power, the CFD has become a routine tool used for aerodynamic a...
An efficient computational framework is presented and applied to the inverse aerodynamic shape desig...
A fully-coupled algorithm is presented to solve aerodynamic design optimization problems. The discre...
A study was performed to evaluate the effects of different flow solvers, optimization methods, and d...
The aerodynamic design of classical and innovative nozzle concepts is investigated by an inverse me...
Design optimization using high-fidelity computational fluid dynamics simulations is becoming increas...
The aerodynamic inverse design approach consists of finding the ge-ometry that produces a desired (t...
Design optimization methods using high-fidelity computational fluid dynamics simulations are becomin...
The increasing popularity of high fidelity computational fluid dynamics simulations in aerodynamic d...
The inverse design method of aerodynamic configuration is hard to give a reasonable pressure distrib...
A classical inverse problem in fluid dynamics, i.e., determine the geometry of an airfoil given the ...
The engineering problem of airfoil design has been of great theoretical interest for almost a centur...
Some ideas for using hodograph theory, mapping techniques and methods of characteristics to formulat...
The feasibility of the use of the Navier-Stokes equations in aerodynamic design is examined. The Nav...
This contribution focuses on the importance of preprocessing tools for successful design and optimiz...
With the increasing of computational power, the CFD has become a routine tool used for aerodynamic a...
An efficient computational framework is presented and applied to the inverse aerodynamic shape desig...
A fully-coupled algorithm is presented to solve aerodynamic design optimization problems. The discre...
A study was performed to evaluate the effects of different flow solvers, optimization methods, and d...
The aerodynamic design of classical and innovative nozzle concepts is investigated by an inverse me...
Design optimization using high-fidelity computational fluid dynamics simulations is becoming increas...