Add to ORKGAutomated and parametric model generation and sizing of wind turbine blades is essential for multidisciplinary analysis and optimization purposes. The present paper presents an automated process based on a common parametric dataset, which allows a variable model generation and efficient sizing. As an exemplarily application the DTU 10MW reference rotor blade is used to demonstrate the flexibility, by investigating and comparing two different design concepts
Zeus Diseñador was developed to design low-power, horizontal-axis wind turbine blades, by means of a...
The state-of-the-art actuator line modeling (ALM) method has been used extensively in the past decad...
This thesis attempts to develop a framework to optimize wind turbine blades automatically by a mult...
The product development cycles in all sectors of the industry become shorter. Simultaneously, the pe...
The product development cycles in all parts of the industry become increasingly shorter. In spite of...
Due to the multi-disciplinary nature in the design of wind turbines, developers and manufacturers fa...
The blade which can extract energy from wind plays a key role in a wind turbine system. Recently, fi...
The object of research is the shape of the blade of a vertical-axis installation. The problem solved...
Multidisciplinary Design and Optimisation is the future design methodology with the largest potentia...
Wind turbine industry has substantially grown in last decades and is still becoming larger. Hence, e...
The demand for energy in the world increases everyday. Blade energy which is wind turbine is a signi...
The dataset includes a reference finite element model of a wind turbine blade. In the projects Smart...
Complex systems can be divided into simpler substructures. Determining the properties of each subcom...
This paper presents two novel automated optimization approaches. The first one proposes a framework...
A wind turbine blade has a complex shape and consists of different elements with dissimilar material...
Zeus Diseñador was developed to design low-power, horizontal-axis wind turbine blades, by means of a...
The state-of-the-art actuator line modeling (ALM) method has been used extensively in the past decad...
This thesis attempts to develop a framework to optimize wind turbine blades automatically by a mult...
The product development cycles in all sectors of the industry become shorter. Simultaneously, the pe...
The product development cycles in all parts of the industry become increasingly shorter. In spite of...
Due to the multi-disciplinary nature in the design of wind turbines, developers and manufacturers fa...
The blade which can extract energy from wind plays a key role in a wind turbine system. Recently, fi...
The object of research is the shape of the blade of a vertical-axis installation. The problem solved...
Multidisciplinary Design and Optimisation is the future design methodology with the largest potentia...
Wind turbine industry has substantially grown in last decades and is still becoming larger. Hence, e...
The demand for energy in the world increases everyday. Blade energy which is wind turbine is a signi...
The dataset includes a reference finite element model of a wind turbine blade. In the projects Smart...
Complex systems can be divided into simpler substructures. Determining the properties of each subcom...
This paper presents two novel automated optimization approaches. The first one proposes a framework...
A wind turbine blade has a complex shape and consists of different elements with dissimilar material...
Zeus Diseñador was developed to design low-power, horizontal-axis wind turbine blades, by means of a...
The state-of-the-art actuator line modeling (ALM) method has been used extensively in the past decad...
This thesis attempts to develop a framework to optimize wind turbine blades automatically by a mult...