Abstract
Since different incident waves will cause the same array to perform differently with respect to the wave energy converter (WEC), the parameters of the incident wave, including the incident angle and the incident wave number, are taken into account for optimizing the wave energy converter array. Then, the differential evolution (DE) algorithm, which has the advantages of simple operation procedures and a strong global search ability, is used to optimize the wave energy converter array. However, the traditional differential evolution algorithm cannot satisfy the convergence precision and speed simultaneously. In order to make the optimization results more accurate, the concept of an adaptive mutation operator is presented to improve the performance of differential evolution algorithm. It gives the improved algorithm a faster convergence and a higher precision ability. The three-float, five-float, and eight-float arrays were optimized, respectively. It can be concluded that the larger the size of the array is, the greater the interaction between the floats is. Hence, a higher efficiency of wave energy extraction for wave energy converter arrays is achieved by the layout optimization of the array of wave energy converters. The results also show that the optimal layout of the array system is inhomogeneously distributed and that the improved DE algorithm used on array optimization is superior to the traditional DE algorithm.
Highlights
Consumption of fossil energy, such as oil, coal, and natural gas, has grown rapidly with the industrialization process
It was found that, when the incident angle is set to zero and the wave number satisfies 2ak0 = 0.8, a larger interaction coefficient can be obtained
The optimization of a wave energy converter (WEC) array is of interest for the scientific community
Summary
Consumption of fossil energy, such as oil, coal, and natural gas, has grown rapidly with the industrialization process. A single WEC has a low power efficiency, unstable power generation, and only small-scale generated electricity because it generally cannot absorb the ocean wave energy in different. A multi-float array wave energy converter test system called “Trident” was built by the Trident Energy Company (Blyth, UK ) The advantages of this system are the small distance between the floats and the linear machines used to generate electricity. A four-float wave energy converter was developed at China Ocean University as well [26]. It was found that, when the incident angle is set to zero and the wave number satisfies 2ak0 = 0.8 (a is the radius of float), a larger interaction coefficient can be obtained This can be used to research the layout optimization of WEC arrays. DEHydrodynamic algorithm, underModel more suitable incident wave parameters, so that greater wave energy is extracted
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