This report presents a comprehensive design and analysis of an ocean wave-induced permanent magnet energy generator, focusing on the conversion of wave energy to electrical energy using a permanent magnet linear generator (PMLG). The study includes a detailed literature review on wave energy, PMLG design, and relevant parameters. The methodology section outlines the principle and development of the PMLG, including the selection of vector diagrams and circuits. Numerical modeling is performed using ANSYS Maxwell to analyze magnetic field generation and voltage output, alongside static analysis in Solidworks to assess structural integrity. The results section provides insights into magnetic flux density, magnetic flux linkage, and induced voltage under varying conditions. The report concludes with a summary of findings, a discussion of the pros and cons of PMLG, analytical calculations, and potential future research directions, making this a valuable resource for understanding and improving wave energy generation technologies.
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