Click on the DOI link to access the article (may not be free).The blade element method is an indispensible engineering design tool. It executes rapidly on a personal computer and is capable of accurate propeller performance predictions. An extensive literature survey reveals that for conventional high-aspect ratio propeller blades lifting surface and computational fluid dynamics approaches add a large degree of complexity without providing significantly improved performance prediction capabilities as compared to the blade element/vortex theory. The accuracy of the blade element method is, however, highly dependent on the fidelity of the airfoil aerodynamic model. The primary focus of this paper is on presenting a nonlinear aerodynamic model...
The purpose of this study is to consider propeller geometry and blade rotation in the propeller mode...
In the current work a methodology to quickly estimate propeller slipstream effects on a finite wing,...
This report outlines the theory and methodology used in the Chalmers in-house propeller design code ...
International audienceThe present investigation addresses two key issues in aerodynamic performance ...
In this paper a computational methodology of aerodynamic interaction between propeller and wing is d...
Paper to be presented in The 8th International Conference on Applied Energy ??? ICAE2016In order to ...
The analytical approaches as well as the capabilities of three advanced analyses for predicting prop...
A numerical method is presented as a low computational cost approach to modeling an induced propelle...
Computational fluid dynamics (CFD) is a vital component in aerospace engineering. A major use of CFD...
The loading of an airfoil during dynamic stall is examined in terms of the augmented lift and the as...
Over the last three decades and a half, there has been huge effort to develop high performance prope...
Unmanned aerial vehicle (UAV) is a growing technology used in different industries, and the main pla...
The research objective is to analyze the aerodynamic interaction effects and quantify the performanc...
Blade element momentum theory is well suited for propeller analysis during the early stages of desig...
In employing blade element momentum (BEM) method to compute the performance of a turbine propeller, ...
The purpose of this study is to consider propeller geometry and blade rotation in the propeller mode...
In the current work a methodology to quickly estimate propeller slipstream effects on a finite wing,...
This report outlines the theory and methodology used in the Chalmers in-house propeller design code ...
International audienceThe present investigation addresses two key issues in aerodynamic performance ...
In this paper a computational methodology of aerodynamic interaction between propeller and wing is d...
Paper to be presented in The 8th International Conference on Applied Energy ??? ICAE2016In order to ...
The analytical approaches as well as the capabilities of three advanced analyses for predicting prop...
A numerical method is presented as a low computational cost approach to modeling an induced propelle...
Computational fluid dynamics (CFD) is a vital component in aerospace engineering. A major use of CFD...
The loading of an airfoil during dynamic stall is examined in terms of the augmented lift and the as...
Over the last three decades and a half, there has been huge effort to develop high performance prope...
Unmanned aerial vehicle (UAV) is a growing technology used in different industries, and the main pla...
The research objective is to analyze the aerodynamic interaction effects and quantify the performanc...
Blade element momentum theory is well suited for propeller analysis during the early stages of desig...
In employing blade element momentum (BEM) method to compute the performance of a turbine propeller, ...
The purpose of this study is to consider propeller geometry and blade rotation in the propeller mode...
In the current work a methodology to quickly estimate propeller slipstream effects on a finite wing,...
This report outlines the theory and methodology used in the Chalmers in-house propeller design code ...