Horizontal axis wind turbines (HAWTs) are the dominating technology in large scale energy production utilizing the wind power. With these structures, HAWTs continually becoming more massive in size to produce the most energy possible, greater stresses are imposed on the blades of these turbines. The purpose of this study was to analyze the stresses and deformation imposed on the blades of commonly used airfoils under varying materials and blade arrangements of HAWTs. This structural analysis was performed by the use of ANSYS Workbench software. The pressures applied to the blades were determined by previous studies which used ANSYS Fluent for blade pressure analysis created under varying wind speeds. Use of the airfoil designs denoted as S8...
The main purpose of this project was the creation of a tool, based on the research performed by Sche...
International audienceWind energy is one among the most promising renewable energy sources, and henc...
The design of an optimised horizontal axis 5-meter-long wind turbine rotor blade in according with I...
A process of detailed CFD and structural numerical simulations of the 1.5 MW horizontal axis wind tu...
142-145This paper presents aeromechanical evaluation of a blade (length, 50 m) of horizontal axis wi...
Recently, renewable energy sources are crucial in the nation development as the world facing with th...
Wind turbine technology is one of the rapid growth sectors of renewable energy all over the world. T...
ABSTRACT The article presents a study conducted to analyze the vulnerable zones of horizontal axis w...
In this work, the analysis is done on a blade of length 66.5cm which is designed for AIR X- 400W hor...
With the development of wind power generation technology, the wind turbine blade is becoming more an...
The critical issue for generating electricity device driven by kinetic energy of the wind remains as...
Wind turbines are designed to deliver optimal power at rated wind speeds. Site specific designs, the...
This paper presents an aeroelastic formulation based on the Finite Element Method (FEM) to predict t...
This study is presented here that the stress characteristics of an existing 5-meter composite wind t...
Abstract: Finite element evaluation of large (over 0.5MW) nominal power Horizontal Axis Wind Turbin...
The main purpose of this project was the creation of a tool, based on the research performed by Sche...
International audienceWind energy is one among the most promising renewable energy sources, and henc...
The design of an optimised horizontal axis 5-meter-long wind turbine rotor blade in according with I...
A process of detailed CFD and structural numerical simulations of the 1.5 MW horizontal axis wind tu...
142-145This paper presents aeromechanical evaluation of a blade (length, 50 m) of horizontal axis wi...
Recently, renewable energy sources are crucial in the nation development as the world facing with th...
Wind turbine technology is one of the rapid growth sectors of renewable energy all over the world. T...
ABSTRACT The article presents a study conducted to analyze the vulnerable zones of horizontal axis w...
In this work, the analysis is done on a blade of length 66.5cm which is designed for AIR X- 400W hor...
With the development of wind power generation technology, the wind turbine blade is becoming more an...
The critical issue for generating electricity device driven by kinetic energy of the wind remains as...
Wind turbines are designed to deliver optimal power at rated wind speeds. Site specific designs, the...
This paper presents an aeroelastic formulation based on the Finite Element Method (FEM) to predict t...
This study is presented here that the stress characteristics of an existing 5-meter composite wind t...
Abstract: Finite element evaluation of large (over 0.5MW) nominal power Horizontal Axis Wind Turbin...
The main purpose of this project was the creation of a tool, based on the research performed by Sche...
International audienceWind energy is one among the most promising renewable energy sources, and henc...
The design of an optimised horizontal axis 5-meter-long wind turbine rotor blade in according with I...