This paper illustrates the implementation of a combined momentum-bladeelementtheory for light and moderately loaded marinepropellers and highlights its relevance, when compared to other more complex procedures, for their design and analysis. For this purpose, the results obtained using the theoretical model are first validated against experimental data concerning four Wageningen B-series propellers, and then these results are compared to those found using a fully three-dimensional Navier–Stokes calculation. The reasons of the differences in the results are analyzed and discussed using theoretical arguments
Click on the DOI link to access the article (may not be free).The blade element method is an indispe...
Results of the fluid-structure co-simulations that were carried out as part of the FleksProp project...
<b>[Objectives]</b> The reliability of propeller stress has a great influence on the safe navigation...
The unsteady, non-uniform inflow to marine propellers causes a time dependent load and response of t...
The mathematical model and experimental verification of flexible propeller blades are presented in t...
The development of a blade element momentum (BEM) model for the hydrodynamic design of marine curren...
A modified lifting line theory is presented which models ship rudder load characteristics when opera...
Vita.Feasibility of a three dimensional, incompressible flow velocity potential formulation to predi...
In presence of hydrodynamics phenomena occur surrounding propeller evidently affects on accuracy’s p...
The aim of the present research work is to investigate the hydrodynamic characteristics (pressure di...
This report outlines the theory and methodology used in the Chalmers in-house propeller design code ...
The work reported in this text describes the development of an advanced method for the aerodynamic t...
The mathematical model used in previous Davidson Laboratory adaptations of linearized unsteady lifti...
The purpose of this study is to consider propeller geometry and blade rotation in the propeller mode...
This deliverable describes the development and validation of computational hydrodynamics models for ...
Click on the DOI link to access the article (may not be free).The blade element method is an indispe...
Results of the fluid-structure co-simulations that were carried out as part of the FleksProp project...
<b>[Objectives]</b> The reliability of propeller stress has a great influence on the safe navigation...
The unsteady, non-uniform inflow to marine propellers causes a time dependent load and response of t...
The mathematical model and experimental verification of flexible propeller blades are presented in t...
The development of a blade element momentum (BEM) model for the hydrodynamic design of marine curren...
A modified lifting line theory is presented which models ship rudder load characteristics when opera...
Vita.Feasibility of a three dimensional, incompressible flow velocity potential formulation to predi...
In presence of hydrodynamics phenomena occur surrounding propeller evidently affects on accuracy’s p...
The aim of the present research work is to investigate the hydrodynamic characteristics (pressure di...
This report outlines the theory and methodology used in the Chalmers in-house propeller design code ...
The work reported in this text describes the development of an advanced method for the aerodynamic t...
The mathematical model used in previous Davidson Laboratory adaptations of linearized unsteady lifti...
The purpose of this study is to consider propeller geometry and blade rotation in the propeller mode...
This deliverable describes the development and validation of computational hydrodynamics models for ...
Click on the DOI link to access the article (may not be free).The blade element method is an indispe...
Results of the fluid-structure co-simulations that were carried out as part of the FleksProp project...
<b>[Objectives]</b> The reliability of propeller stress has a great influence on the safe navigation...