This paper presents a multi-fidelity propeller design and analysis process, and demonstrates it for the preliminary design of a heavy-lift eVTOL vehicle proposed by GKN aerospace, known as Skybus. The multi-fidelity framework integrates tools and results of variable fidelity levels. A global scan of the design space was first carried out at the low-fidelity stage. The low-fidelity output was converted to 3D shapes and grids through an automatic meshing tool, and high-fidelity CFD simulations and gradient-based optimisation were launched to deliver further improved designs. The method was first verified using a benchmark multi-modal test function. The framework was then demonstrated for the propeller design of the Skybus vehicle. Rectangular...
The mathematical model and experimental verification of flexible propeller blades are presented in t...
This paper addresses the design of swirl recovery vanes for propeller propulsion in tractor configur...
It is envisioned that the future generations of regional and short to medium-range aircraft employ a...
This work presents the processes used to support the preliminary design of a large eVTOL vehicle at ...
The maturation of electric propulsion technologies presents intriguing new degrees of freedom for ai...
Today`s demand of urban mobility is constantly growing due to the demographic changes observed in me...
The rising interest in the evolvability of electric vertical takeoff and landing (eVTOL) promises su...
A Simulation Based Design Optimization method for marine propellers using a two-fidelity levels meta...
Ever since the late seventies great engineering effort has gone into increasing the fuel efficiency ...
Small unmanned aerial systems are now often utilised in a wide range of military and civilian applic...
Urban air mobility is a new form of aviation that holds potential to transform commuting options in ...
An investigation of aerodynamic models with varying fidelity is performed with respect to the requir...
A novel variable-fidelity multi-objective optimization technique is applied to the design problem of...
With the growing popularity of autonomous drones for commercial uses, there is a need to optimize th...
Four regional turboprop aircraft of different configuration are assessed on their key performance in...
The mathematical model and experimental verification of flexible propeller blades are presented in t...
This paper addresses the design of swirl recovery vanes for propeller propulsion in tractor configur...
It is envisioned that the future generations of regional and short to medium-range aircraft employ a...
This work presents the processes used to support the preliminary design of a large eVTOL vehicle at ...
The maturation of electric propulsion technologies presents intriguing new degrees of freedom for ai...
Today`s demand of urban mobility is constantly growing due to the demographic changes observed in me...
The rising interest in the evolvability of electric vertical takeoff and landing (eVTOL) promises su...
A Simulation Based Design Optimization method for marine propellers using a two-fidelity levels meta...
Ever since the late seventies great engineering effort has gone into increasing the fuel efficiency ...
Small unmanned aerial systems are now often utilised in a wide range of military and civilian applic...
Urban air mobility is a new form of aviation that holds potential to transform commuting options in ...
An investigation of aerodynamic models with varying fidelity is performed with respect to the requir...
A novel variable-fidelity multi-objective optimization technique is applied to the design problem of...
With the growing popularity of autonomous drones for commercial uses, there is a need to optimize th...
Four regional turboprop aircraft of different configuration are assessed on their key performance in...
The mathematical model and experimental verification of flexible propeller blades are presented in t...
This paper addresses the design of swirl recovery vanes for propeller propulsion in tractor configur...
It is envisioned that the future generations of regional and short to medium-range aircraft employ a...