The process hereafter presented will focus on the initial DLR Virtual Product House use case, a high lift configuration, in regard to aerodynamic and systems design. The goal of the use case is to achieve a new movable layout and geometry by replacing an existing and already certified component with a new design. In the scope of this work, as the first step of this overall design process, an integrated process for the design and optimization of trailing edge device geometries on a mid-range aircraft is built up and applied. Based upon an existing parametric aircraft model, the existing flap geometry is replaced with an adaptive dropped hinge flap design. Kinematic design, synthesis and assessment of the new trailing edge devices is performe...
Researchers and engineers design modern aircraft wings to reach high levels of efficiency with the m...
This paper presents work being conducted by the German Aerospace Center (DLR) and the Politecnico di...
Airfoil camber adaptation may be the key for the performance improvement of wings for many specific...
This work presents the virtual design activities performed within the Virtual Product House (VPH) st...
A new methodology has been developed that integrates the preliminary wing design with trailing edge ...
In today’s highly competitive aviation industry, continuous efforts are being directed towards reduc...
The design activity within the EUROLIFT II project is targeted towards an improvement of the take-of...
The design activity within the EUROLIFT II project is targeted towards an improvement of the take-of...
In the present work, the aerodynamic shape design of an advanced high-lift system for a natural lami...
This paper presents a summary of the evolution of aeroelastic models for flying wing configurations....
The design activity within the European 6th framework project EUROLIFT II is targeted towards an imp...
Several flight regimes occurring during a typical aircraft mission make it impossible to define a un...
Aircraft wings are usually optimized for a specific design point. However, since they operate in a w...
Numerical simulation is already an important cornerstone for aircraft design, although the applicati...
Researchers and engineers design modern aircraft wings to reach high levels of efficiency with the m...
This paper presents work being conducted by the German Aerospace Center (DLR) and the Politecnico di...
Airfoil camber adaptation may be the key for the performance improvement of wings for many specific...
This work presents the virtual design activities performed within the Virtual Product House (VPH) st...
A new methodology has been developed that integrates the preliminary wing design with trailing edge ...
In today’s highly competitive aviation industry, continuous efforts are being directed towards reduc...
The design activity within the EUROLIFT II project is targeted towards an improvement of the take-of...
The design activity within the EUROLIFT II project is targeted towards an improvement of the take-of...
In the present work, the aerodynamic shape design of an advanced high-lift system for a natural lami...
This paper presents a summary of the evolution of aeroelastic models for flying wing configurations....
The design activity within the European 6th framework project EUROLIFT II is targeted towards an imp...
Several flight regimes occurring during a typical aircraft mission make it impossible to define a un...
Aircraft wings are usually optimized for a specific design point. However, since they operate in a w...
Numerical simulation is already an important cornerstone for aircraft design, although the applicati...
Researchers and engineers design modern aircraft wings to reach high levels of efficiency with the m...
This paper presents work being conducted by the German Aerospace Center (DLR) and the Politecnico di...
Airfoil camber adaptation may be the key for the performance improvement of wings for many specific...