State-Space Approximation of Convolution Term in Time Domain Analysis of a Raft-Type Wave Energy Converter

Abstract: Two methods, frequency domain analysis and time domain analysis, are widely applied to modeling wave energy converters (WECs). Frequency domain analysis can evaluate the performance of WECs quickly and efficiently, while it refers to a linear model. When it comes to investigations on nonlinear characteristics of the power take-off (PTO) unit of WECs or control for improving the WECs' performance, time domain analysis based on a state-space approximation for the convolution term is more desirable. In this paper… Show more

“…In addition, the computational speed of the state-space model is faster than that of the convolution integral [32,33]. Therefore, this subsection describes the state-space representation of ( 16) and (17).…”

“…Figure 7 (b) contains the experimental result, numerical result using the bi-directional prediction (i.e. (17) and inputs of points A and B are used), and numerical result using the uni-directional prediction (i.e. (12) and input of only point A is used).…”

“…Many studies are based on this assumption, and the wave exciting force is expressed by the superposition of sinusoidal forces with different frequencies (e.g. [8,16,17]). However, a prediction of the wave exciting force (i.e.…”

Decomposition and Prediction of Initial Uniform Bi-Directional Water Waves Using an Array of Wave-Rider Buoys

“…In addition, the computational speed of the state-space model is faster than that of the convolution integral [32,33]. Therefore, this subsection describes the state-space representation of ( 16) and (17).…”

“…Figure 7 (b) contains the experimental result, numerical result using the bi-directional prediction (i.e. (17) and inputs of points A and B are used), and numerical result using the uni-directional prediction (i.e. (12) and input of only point A is used).…”

“…Many studies are based on this assumption, and the wave exciting force is expressed by the superposition of sinusoidal forces with different frequencies (e.g. [8,16,17]). However, a prediction of the wave exciting force (i.e.…”

Decomposition and Prediction of Initial Uniform Bi-Directional Water Waves Using an Array of Wave-Rider Buoys

Investigation on semi-analytical solution of dynamic characteristics of an anti-pitching generating WEC (AG-WEC)

Hydrodynamic Analysis and Power Conversion for Point Absorber WEC with Two Degrees of Freedom Using CFD