Add to ORKG906-912This study presents numerical simulations of a cross-flow vertical-axis marine current turbine (straight-bladed Darrieus type) with particular emphasis on rotor-performance prediction and hydrodynamic characteristics. A physical transient-rotor-stator model with a sliding mesh technique was used to capture change in flow field at a particular time step. A shear stress-transport k-ù turbulence model was used to model turbulent features of the flow. Developed model can effectively predict hydrodynamic performance of a vertical-axis marine current turbine
This study provides a comprehensive assessment of a 2 bladed horizontal axis marine current turbine ...
Numerical simulation is used to predict the performance of a Vertical Axis Wind Turbine (VAWT) H-Dar...
The development of a blade element momentum (BEM) model for the hydrodynamic design of marine curren...
This paper presents developments in numerical simulations of a cross-flow vertical-axis marine curre...
Este estudio presenta simulaciones numéricas de una turbina de corriente marina de eje vertical de f...
Abstract: This work reviews hydrodynamic analysis models developed for the design of Darrieus-type v...
Horizontal axis marine current turbine is a viable device which can harness kinetic energy from ocea...
Horizontal axis marine current turbine is a viable device which can harness kinetic energy from ocea...
Horizontal axis marine current turbine is a viable device which can harness kinetic energy from ocea...
The commercial exploitation of kinetic energy from tidal current involves deploying multiple turbine...
In this study, three-dimensional transient numerical simulations of the flow around a cross flow wat...
In this study, three-dimensional transient numerical simulations of the flow around a cross flow wat...
This paper presents the numerical predictions of 3D CFD rotor computations of an 800mm diameter mode...
Results of a computational study to analyse the hydrodynamic performance of horizontal-axis marine c...
This study provides a comprehensive assessment of a 2 bladed horizontal axis marine current turbine ...
This study provides a comprehensive assessment of a 2 bladed horizontal axis marine current turbine ...
Numerical simulation is used to predict the performance of a Vertical Axis Wind Turbine (VAWT) H-Dar...
The development of a blade element momentum (BEM) model for the hydrodynamic design of marine curren...
This paper presents developments in numerical simulations of a cross-flow vertical-axis marine curre...
Este estudio presenta simulaciones numéricas de una turbina de corriente marina de eje vertical de f...
Abstract: This work reviews hydrodynamic analysis models developed for the design of Darrieus-type v...
Horizontal axis marine current turbine is a viable device which can harness kinetic energy from ocea...
Horizontal axis marine current turbine is a viable device which can harness kinetic energy from ocea...
Horizontal axis marine current turbine is a viable device which can harness kinetic energy from ocea...
The commercial exploitation of kinetic energy from tidal current involves deploying multiple turbine...
In this study, three-dimensional transient numerical simulations of the flow around a cross flow wat...
In this study, three-dimensional transient numerical simulations of the flow around a cross flow wat...
This paper presents the numerical predictions of 3D CFD rotor computations of an 800mm diameter mode...
Results of a computational study to analyse the hydrodynamic performance of horizontal-axis marine c...
This study provides a comprehensive assessment of a 2 bladed horizontal axis marine current turbine ...
This study provides a comprehensive assessment of a 2 bladed horizontal axis marine current turbine ...
Numerical simulation is used to predict the performance of a Vertical Axis Wind Turbine (VAWT) H-Dar...
The development of a blade element momentum (BEM) model for the hydrodynamic design of marine curren...