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About The Book
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The Special Issue Assessment and Nonlinear Modeling of Wave Tidal and Wind Energy Converters and Turbines contributes original research to stimulate the continuing progress of the offshore renewable energy (ORE) field with a focus on state-of-the-art numerical approaches developed for the design and analysis of ORE devices. Particularly this collection provides new methodologies analytical/numerical tools and theoretical methods that deal with engineering problems in the ORE field of wave wind and current structures. This Special Issue covers a wide range of multidisciplinary aspects such as the 1) study of generalized interaction wake model systems with elm variation for offshore wind farms; 2) a flower pollination method based on global maximum power point tracking strategy for point-absorbing type wave energy converters; 3) performance optimization of a Kirsten-Boeing turbine using a metamodel based on neural networks coupled with CFD; 4) proposal of a novel semi-submersible floating wind turbine platform composed of inclined columns and multi-segmented mooring lines; 5) reduction of tower fatigue through blade back twist and active pitch-to-stall control strategy for a semi-submersible floating offshore wind turbine; 6) assessment of primary energy conversion of a closed-circuit OWC wave energy converter; 7) development and validation of a wave-to-wire model for two types of OWC wave energy converters; 8) assessment of a hydrokinetic energy converter based on vortex-induced angular oscillations of a cylinder; 9) application of wave-turbulence decomposition methods on a tidal energy site assessment; 10) parametric study for an oscillating water column wave energy conversion system installed on a breakwater; 11) optimal dimensions of a semisubmersible floating platform for a 10 MW wind turbine; 12) fatigue life assessment for power cables floating in offshore wind turbines.