Abstract
The emerging global wave energy industry has great potential to contribute to the world’s energy needs. However, one of the key challenges in designing a wave energy converter (WEC) is the wave energy generator. Thus, this paper focuses on the optimal design of a cylindrical permanent magnet linear generator (CPMLG), which is used for the wave energy conversion system. To reduce the end effect and enhance the magnetic field performance of the CPMLG, the level-set method is applied to the design of the topology and size for the generator. In the paper, the objective air gap magnetic field is given by the mathematical analysis method and appropriate measuring points are predetermined. The measuring points can fully reflect the distribution characteristics of the air gap magnetic field. Then, topology evolution on the permanent magnet (PM) and yoke based on the level-set method are performed. The level set function corresponding to the initial shape of the PM is constructed. The algorithm is programmed and computed iteratively using the discrete time and space variables. Finally, the performances of the CPMLG with the updated PM and width of yoke are analyzed by ANSYS Maxwell. Results show that the magnetic field distortion and the unbalance of three-phase electromotive force (EMF) of the CPMLG is reduced by the optimization of the level-set method. It has also been verified that the designed CPMLG with the level-set method could be used for WEC at different wave conditions.
Highlights
Wave energy is an emerging renewable energy source, which can contribute towards sustainable development of our world [1,2,3,4,5]
It was found that linear generators can be used in the direct drive wave energy conversion system, in which it can reduce the complexity of mechanical transmission and improve the reliability and efficiency of the system [6,7,8,9,10,11]
To improve the efficiency and reliability of the cylindrical permanent magnet linear generator (CPMLG) used in a wave energy conversion system, the level set curve evolution method was applied to the design process of the topology evolution of the permanent magnet (PM) and yoke
Summary
Wave energy is an emerging renewable energy source, which can contribute towards sustainable development of our world [1,2,3,4,5]. It was found that linear generators can be used in the direct drive wave energy conversion system, in which it can reduce the complexity of mechanical transmission and improve the reliability and efficiency of the system [6,7,8,9,10,11]. It is necessary to reduce the positioning force as much as possible with the level-set method, and this is the key target for the design of permanent magnet linear generators, which are used for wave energy conversion [16]. To improve the air-gap magnetic field performance and reduce the unbalance of back-EMF, the CPMLG used for a wave energy conversion system is designed by using the level-set method to increase the wave energy capturing efficiency. Its validity has been verified by its application for direct and in-direct driving wave energy conversion systems, respectively
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