Add to ORKGA coupled boundary element method finite element method (BEMFEM) is presented for the transient hydroelastic analysis of surfacepiercing propellers (SPPs). The method is used to help the design and analysis of three different size SPPs that deliver a constant advance speed of 25.72 m/s (50 knots). Numerical validation studies are shown. The mean and unsteady responses of the three SPPs are presented. Finally, limitations of the BEM-FEM method are discussed. 100L upper and lower tanks. The working fluids were water and liquid nitrogen. Experiments with emphasis on periodical shedding of cloud cavitation were performed for three channels, 20, 30 and 60 mm in width, and two hydrofoils, 20 and 60mm in chord length LC. Inlet velocity uin and c...
textA two-dimensional Boundary Element Method (BEM) is developed to study the strongly nonlinear int...
Marine Propellers of different types have been used in vessel propulsion systems. Surface Piercing P...
textA computational approach to analyze the hydrodynamic performance of a hydrofoil or a marine prop...
A coupled boundary element method – finite element method (BEM-FEM) is presented for the transient h...
ABSTRACTA reliable steady/transient hydro-elastic analysis is developed for flexible (composite) mar...
AbstractThis article investigates numerical modeling of surface piercing propeller (SPP) in unsteady...
A two-dimensional BEM based scheme is presented for the numerical modeling of the ventilated flow pa...
<b>[Objectives]</b> The reliability of propeller stress has a great influence on the safe navigation...
The first part of the paper presents a partitioned fluid–structure interaction (FSI) coupling for th...
Boundary element methods (BEM) have been used for propeller hydrodynamic calculations since the 1990...
Boundary element methods (BEM) have been used for propeller hydrodynamic calculations since the 1990...
In the past several decades, many papers have been published on fluid–structure coupled calculations...
This report describes a computational methodology to describe marine propeller cavitation using hydr...
The paper presents a method based on hydro-elastic analysis to determine the hydrodynamics character...
In the past several decades, many papers have been published on fluid–structure coupled calculations...
textA two-dimensional Boundary Element Method (BEM) is developed to study the strongly nonlinear int...
Marine Propellers of different types have been used in vessel propulsion systems. Surface Piercing P...
textA computational approach to analyze the hydrodynamic performance of a hydrofoil or a marine prop...
A coupled boundary element method – finite element method (BEM-FEM) is presented for the transient h...
ABSTRACTA reliable steady/transient hydro-elastic analysis is developed for flexible (composite) mar...
AbstractThis article investigates numerical modeling of surface piercing propeller (SPP) in unsteady...
A two-dimensional BEM based scheme is presented for the numerical modeling of the ventilated flow pa...
<b>[Objectives]</b> The reliability of propeller stress has a great influence on the safe navigation...
The first part of the paper presents a partitioned fluid–structure interaction (FSI) coupling for th...
Boundary element methods (BEM) have been used for propeller hydrodynamic calculations since the 1990...
Boundary element methods (BEM) have been used for propeller hydrodynamic calculations since the 1990...
In the past several decades, many papers have been published on fluid–structure coupled calculations...
This report describes a computational methodology to describe marine propeller cavitation using hydr...
The paper presents a method based on hydro-elastic analysis to determine the hydrodynamics character...
In the past several decades, many papers have been published on fluid–structure coupled calculations...
textA two-dimensional Boundary Element Method (BEM) is developed to study the strongly nonlinear int...
Marine Propellers of different types have been used in vessel propulsion systems. Surface Piercing P...
textA computational approach to analyze the hydrodynamic performance of a hydrofoil or a marine prop...