📝 SummarXiv

Abstract

This study investigates the mitigation of acoustic emissions from tidal current converters (TCCs) through optimized control strategies to enhance power generation efficiency while minimizing environmental impacts on marine life. A MATLAB/Simulink-based model of a Tidal Current Conversion System (TCCS) was developed to simulate the effects of variable control parameters, including switching frequencies, maximum power point tracking (MPPT) coefficients, and the elimination of the gearbox, on underwater noise levels. Acoustic emissions were quantified in terms of sound pressure levels (SPLs), and their potential impacts on marine mammals and fish were evaluated against species-specific auditory thresholds for temporary and permanent hearing threshold shifts. The results indicate that adjusting control parameters can significantly reduce SPLs, with the removal of the gearbox yielding the greatest noise reduction. The study identifies operational conditions under which marine species are at risk of auditory damage and proposes control strategies to mitigate these risks without compromising energy output. These findings contribute to the understanding of how control system modifications can balance the efficiency of marine energy systems with ecological considerations, offering guidance for the design and operation of environmentally compliant TCCs.