Attention to aircraft electrification has been growing quickly since such technology carries the potential of drastically reducing the environmental impact of aviation. This paper describes the re-design of a nacelle for an electric fan, which is developed as part of the EleFanT (Electric Fan Thruster) project. A multipoint nacelle design approach was carried out. Initially the nacelle shapes were optimized for a cruise condition by employing an evolutionary genetic algorithm (GA). The flow field around the nacelles was calculated by conducting 2D axisymmetric computational fluid dynamics (CFD) simulations, and the objective functions were computed by means of thrust and drag bookkeeping. It was found that the optimizer favored two types of...
The Institute of Aeroelasticity plans a series of experiments on a wing-nacelle configuration in ord...
An optimisation method consisting of the non-dominated sorting genetic algorithm (NSGA-II) and compu...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Aeronautics and Astronautics, 2...
Attention to aircraft electrification has been growing quickly since such technology carries the pot...
This thesis deals with the aerodynamics of aero-engine nacelles with a focus on the influence of a s...
Future turbo-fan engines are expected to operate at low specific thrust with high bypass ratios to i...
The purpose was to develop a preliminary nacelle design method to evaluate the impact of the nacelle...
The design of a civil aeroengine nacelle is a complex multi-objective constrained problem, where sev...
In the pursuit of ever more fuel-efficient engines, the fan diameter and bypass ratio are increasing...
In a bid to meet the requirements on drag reduction, consumer demands and the latest regulations on ...
There are significant environmental and economic drivers for the development of more fuel-efficient ...
Future turbofan engines will operate with larger engine bypass-ratios and lower specific thrust than...
A multi-objective optimiZation method is demonstrated using an evolutionary genetic algorithm. The a...
To achieve a higher propulsive efficiency, and hence reduced fuel burn and emissions, the next gener...
This paper presents a newly developed methodology for multipoint aerodynamic design of ultrashort na...
The Institute of Aeroelasticity plans a series of experiments on a wing-nacelle configuration in ord...
An optimisation method consisting of the non-dominated sorting genetic algorithm (NSGA-II) and compu...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Aeronautics and Astronautics, 2...
Attention to aircraft electrification has been growing quickly since such technology carries the pot...
This thesis deals with the aerodynamics of aero-engine nacelles with a focus on the influence of a s...
Future turbo-fan engines are expected to operate at low specific thrust with high bypass ratios to i...
The purpose was to develop a preliminary nacelle design method to evaluate the impact of the nacelle...
The design of a civil aeroengine nacelle is a complex multi-objective constrained problem, where sev...
In the pursuit of ever more fuel-efficient engines, the fan diameter and bypass ratio are increasing...
In a bid to meet the requirements on drag reduction, consumer demands and the latest regulations on ...
There are significant environmental and economic drivers for the development of more fuel-efficient ...
Future turbofan engines will operate with larger engine bypass-ratios and lower specific thrust than...
A multi-objective optimiZation method is demonstrated using an evolutionary genetic algorithm. The a...
To achieve a higher propulsive efficiency, and hence reduced fuel burn and emissions, the next gener...
This paper presents a newly developed methodology for multipoint aerodynamic design of ultrashort na...
The Institute of Aeroelasticity plans a series of experiments on a wing-nacelle configuration in ord...
An optimisation method consisting of the non-dominated sorting genetic algorithm (NSGA-II) and compu...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Aeronautics and Astronautics, 2...