Wave Exciting Force Maximization of Truncated Cylinders in a Linear Array

Michailides, Constantine; Loukogeorgaki, Eva; Chatjigeorgiou, Ioannis K.

doi:10.3390/en13092400

Energies

2020

DOI: 10.3390/en13092400

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Wave Exciting Force Maximization of Truncated Cylinders in a Linear Array

Constantine Michailides

Eva Loukogeorgaki

Ioannis K. Chatjigeorgiou

Abstract: This study focuses on the determination of optimum layout configurations for a linear array of identical mutually interacting truncated cylinders. Optimum configurations correspond to those that maximize either the total heave exciting force acting on all cylinders of the array or the heave exciting force applied on pairs of cylinders within the array. For achieving this goal, we developed and applied an efficient optimization numerical process (ONP), where a robust hydrodynamic numerical model, capable of sol… Show more

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“…In addition, those integrated concepts need to be further explored to achieve a robust and versatile design (Wang et al, 2020). Low and high fidelity numerical and testing methods (Michailides et al, 2020) are urgently needed to be developed for further exploring the potential of combined power generation, but also, for optimizing the design of such devices.…”

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Editorial: Development of advanced methods for offshore integrated wind-wave power generation devices

2022

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Editorial on the Research Topic Development of advanced methods for off shore integrated windwavep ower generation devicesThe huge amount of offshore renewable energy resources in deep waters has attracted tremendous interest worldwide. Different technologies have reached distinct Technology Readiness Levels (TRL), so far, confirming the intensive research, but also, the industrialization. Floating wind turbine technology has been regarded as an attractive and reliable solution for deep water areas, although it inherently has a number of technological challenges, such as the high cost and severe operational conditions. Already, floating wind turbines farms are in operation successfully without large downtimes and significant problems affecting their operation.However, compared with the offshore wind power generation, the wave energy technology has not yet been exploited in a commercialized scale. The most important inhibitors to the wave energy exploitation are both the functionality and the survivability of the energy devices subjected to the harsh ocean environmental conditions, as well as, their huge Levelized Cost of Energy (LCOE).Many researchers have considered the idea of integrating Wave Energy Converters (WECs) with an offshore wind turbine, particularly with a floating offshore wind turbine for reducing the LCOE of both the wind and wave power generations in deep waters. In recent years, a large number of concepts and possible designs for combining WECs with a floating wind turbine have been proposed and experimentally tested, and even some demonstration projects have been carried out.

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Editorial: Development of advanced methods for offshore integrated wind-wave power generation devices

2022

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Wave Exciting Force Maximization of Truncated Cylinders in a Linear Array

Cited by 1 publication

References 21 publications

Editorial: Development of advanced methods for offshore integrated wind-wave power generation devices

Editorial: Development of advanced methods for offshore integrated wind-wave power generation devices

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