The design of a civil aeroengine nacelle is a complex multi-objective constrained problem, where several variables interact to determine the final aerodynamic performance during cruise and off-design operation. This paper presents a design space exploration of a ultra-high bypass ratio nacelle to study the relations between key geometric factors that affect the flow field past the external cowl. An in-house geometry parameterisation tool allowing a full control on the set of curves is employed in a series of sub-tasks. The investigations of axisymmetric isolated nacelles are conducted using a computational fluid dynamics tool, first studying the influence of global dimensions on the performance metrics, to restrict the feasible design space...
For many aerodynamic design tasks, a key challenge is the balance between the non-linearity of the t...
To reduce specific fuel consumption, it is expected that the next generation of aero-engines will op...
Engine/wing interference in podded installations can introduce relevant changes to their isolated be...
The design of a civil aeroengine nacelle is a complex multi-objective constrained problem, where sev...
Future turbo-fan engines are expected to operate at low specific thrust with high bypass ratios to i...
An optimisation method consisting of the non-dominated sorting genetic algorithm (NSGA-II) and compu...
The purpose was to develop a preliminary nacelle design method to evaluate the impact of the nacelle...
The design of compact nacelles for ultra-high bypass engines is a complex task that must address sev...
A multi-objective optimiZation method is demonstrated using an evolutionary genetic algorithm. The a...
In the pursuit of ever more fuel-efficient engines, the fan diameter and bypass ratio are increasing...
The installation aerodynamics of ultra-high bypass ratio turbofan engine nacelles involves a strong ...
This paper presents a newly developed methodology for multipoint aerodynamic design of ultrashort na...
Turbofan engines with ultra-high bypass ratio require more aggressive nacelle designs to limit the d...
It is expected that future civil aero-engines will operate at low specific thrust and high-bypass ra...
This thesis deals with the aerodynamics of aero-engine nacelles with a focus on the influence of a s...
For many aerodynamic design tasks, a key challenge is the balance between the non-linearity of the t...
To reduce specific fuel consumption, it is expected that the next generation of aero-engines will op...
Engine/wing interference in podded installations can introduce relevant changes to their isolated be...
The design of a civil aeroengine nacelle is a complex multi-objective constrained problem, where sev...
Future turbo-fan engines are expected to operate at low specific thrust with high bypass ratios to i...
An optimisation method consisting of the non-dominated sorting genetic algorithm (NSGA-II) and compu...
The purpose was to develop a preliminary nacelle design method to evaluate the impact of the nacelle...
The design of compact nacelles for ultra-high bypass engines is a complex task that must address sev...
A multi-objective optimiZation method is demonstrated using an evolutionary genetic algorithm. The a...
In the pursuit of ever more fuel-efficient engines, the fan diameter and bypass ratio are increasing...
The installation aerodynamics of ultra-high bypass ratio turbofan engine nacelles involves a strong ...
This paper presents a newly developed methodology for multipoint aerodynamic design of ultrashort na...
Turbofan engines with ultra-high bypass ratio require more aggressive nacelle designs to limit the d...
It is expected that future civil aero-engines will operate at low specific thrust and high-bypass ra...
This thesis deals with the aerodynamics of aero-engine nacelles with a focus on the influence of a s...
For many aerodynamic design tasks, a key challenge is the balance between the non-linearity of the t...
To reduce specific fuel consumption, it is expected that the next generation of aero-engines will op...
Engine/wing interference in podded installations can introduce relevant changes to their isolated be...