Advancements in wave energy conversion: a numerical analysis of the C4 CorPower WEC’s dynamic response in various wave scenarios

Francesco De Marinis

Advancements in wave energy conversion: a numerical analysis of the C4 CorPower WEC’s dynamic response in various wave scenarios.

Rel. Giovanni Bracco, Marilena Greco, Andrea Bardazzi. Politecnico di Torino, Corso di laurea magistrale in Ingegneria Energetica E Nucleare, 2024

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Abstract

This study examines the dynamic response of a selected wave energy converter (WEC) in long-crested waves ranging from linear to steep scenarios. First, an overview on the state-of-the-art for WECs is documented, also highlighting the fundamental role of renewable energy and carbon emission reduction in addressing environmental challenges. Various WECs technologies are discussed comparatively and, the innovative device, C4 CorPower WEC, proposed by CorPower is selected for an in-depth analysis. This is based on a point absorber solution, already at a high Technology Readiness Level (TRL). The theoretical framework for the dynamic analysis is based primarily on linear potential-flow theory, but weakly-nonlinear hydrodynamic effects are also examined; moreover, viscous-flow effects are included through empirical formulas.

The linear numerical approach includes: 1) a frequency-domain solution based on the zero-order boundary element method FFLOB, developed at CNR-INM, using the Green’s function, and 2) a time-domain solution following the Cummin’s approach, with a Runge-Kutta time scheme, including nonlinear body dynamics and using a body-fixed reference frame