In order to survey the structural characteristics of composite rotor blades on the wind turbine operated in mountainous complex terrain, on site wind data were measured and analyzed for one year. Measured gust and turbulence were compared with two existing gust models, International Electrotechnical Commission (IEC) gust model and mean gust shape model. Furthermore, mechanical load measurement and comparison were carried out corresponding to the root of rotor blades. Mainly, the fatigue safeties for the rotor blade were revaluated with the aid of finite element simulation due to highly increased gust and turbulence intensity.X1110sciescopu
This paper details a formulation to create a fatigue loading procedure for the blade of a small wind...
The influence of tower design on damage accumulation in up-wind turbine blades during tower passage ...
Wind industry aims to generate more energy and reduce energy cost by increasing energy capacity of m...
Fatigue damage calculations are conducted as state-of-art design process for wind turbines. Fatigue ...
The size of wind turbine rotors has increased in the past decade from 40 m to more than 120 m di-ame...
ABSTRACT: A 2.5m long glass fibre reinforced plastic composite wind turbine blade was fatigue tested...
A 2.5m long glass fibre reinforced plastic composite wind turbine blade was fatigue tested by means ...
Research Doctorate - Doctor of Philosophy (PhD)The work in this thesis is concerned with developing ...
Aeroelastic design and fatigue analysis of large utility-scale wind turbine blades are performed. Th...
The purpose of this paper is to establish a basis for determining the accuracy level required in loa...
The turbine industry demands a reliable design with affordable cost. As technological advances begin...
AbstractTo reduce uncertainties associated with the fatigue behaviour of the highly safety relevant ...
In this chapter, four main topics in composite blades of wind turbines including design, stress anal...
Wind turbine rotor blades are large composite structures performing most of their design life under ...
The critical issue for generating electricity device driven by kinetic energy of the wind remains as...
This paper details a formulation to create a fatigue loading procedure for the blade of a small wind...
The influence of tower design on damage accumulation in up-wind turbine blades during tower passage ...
Wind industry aims to generate more energy and reduce energy cost by increasing energy capacity of m...
Fatigue damage calculations are conducted as state-of-art design process for wind turbines. Fatigue ...
The size of wind turbine rotors has increased in the past decade from 40 m to more than 120 m di-ame...
ABSTRACT: A 2.5m long glass fibre reinforced plastic composite wind turbine blade was fatigue tested...
A 2.5m long glass fibre reinforced plastic composite wind turbine blade was fatigue tested by means ...
Research Doctorate - Doctor of Philosophy (PhD)The work in this thesis is concerned with developing ...
Aeroelastic design and fatigue analysis of large utility-scale wind turbine blades are performed. Th...
The purpose of this paper is to establish a basis for determining the accuracy level required in loa...
The turbine industry demands a reliable design with affordable cost. As technological advances begin...
AbstractTo reduce uncertainties associated with the fatigue behaviour of the highly safety relevant ...
In this chapter, four main topics in composite blades of wind turbines including design, stress anal...
Wind turbine rotor blades are large composite structures performing most of their design life under ...
The critical issue for generating electricity device driven by kinetic energy of the wind remains as...
This paper details a formulation to create a fatigue loading procedure for the blade of a small wind...
The influence of tower design on damage accumulation in up-wind turbine blades during tower passage ...
Wind industry aims to generate more energy and reduce energy cost by increasing energy capacity of m...