Add to ORKGNumerical models for heaving buoy wave energy converters are a fundamental tool for device design and optimization, power production assessment and model-based controller design. Ideally, models are required to be easy to implement, simple, accurate and computationally efficient. Unfortunately, such features are often conflicting and a compromise has to be reached to define an appropriate model structure. A very common choice is to assume a small amplitude of motion and linearize the model. Despite the attractiveness of computational convenience, linear models quickly become inaccurate when large motion occurs. In particular, the implementation of a control strategy, w...
Accurate and computationally efficient mathematical models are fundamental for designing, optimizing...
This paper presents a numerical model that simulates the behaviour of an offshore point absorber wav...
Wave energy devices are designed, and controlled, in order to be extremely responsive to incoming wa...
Numerical models for heaving buoy wave energy converters are a fundamental tool for device de...
Numerical models for heaving buoy wave energy converters are a fundamental tool for device design an...
Designing, optimizing and controlling a wave energy converter requires the construction of a mathema...
Most wave energy converters (WECs) are described by linear mathematical models, based on the main as...
Although the heaving Point Absorber (PA) concept is well known in wave energy conversion research, f...
One of the major challenges facing modern industrialized countries is the provision of energy: trad...
Available online 18 December 2019This study compares the response of a submerged CETO-shaped point a...
The wave energy sector has made and is still doing a great effort in order to open up a niche in the...
This study presents dynamic simulation results of two point absorber wave energy converters comparin...
Due to the amount of iterative computation involved, researchers involved in geometric optimisation ...
The wave energy industry has grown considerably over the past two decades, developing many differen...
Nonlinear behaviour of wave energy converters in power production mode can be relevant depending on ...
Accurate and computationally efficient mathematical models are fundamental for designing, optimizing...
This paper presents a numerical model that simulates the behaviour of an offshore point absorber wav...
Wave energy devices are designed, and controlled, in order to be extremely responsive to incoming wa...
Numerical models for heaving buoy wave energy converters are a fundamental tool for device de...
Numerical models for heaving buoy wave energy converters are a fundamental tool for device design an...
Designing, optimizing and controlling a wave energy converter requires the construction of a mathema...
Most wave energy converters (WECs) are described by linear mathematical models, based on the main as...
Although the heaving Point Absorber (PA) concept is well known in wave energy conversion research, f...
One of the major challenges facing modern industrialized countries is the provision of energy: trad...
Available online 18 December 2019This study compares the response of a submerged CETO-shaped point a...
The wave energy sector has made and is still doing a great effort in order to open up a niche in the...
This study presents dynamic simulation results of two point absorber wave energy converters comparin...
Due to the amount of iterative computation involved, researchers involved in geometric optimisation ...
The wave energy industry has grown considerably over the past two decades, developing many differen...
Nonlinear behaviour of wave energy converters in power production mode can be relevant depending on ...
Accurate and computationally efficient mathematical models are fundamental for designing, optimizing...
This paper presents a numerical model that simulates the behaviour of an offshore point absorber wav...
Wave energy devices are designed, and controlled, in order to be extremely responsive to incoming wa...