Wave-to-Wire Model of an Oscillating-Water-Column Wave Energy Converter and Its Application to Mediterranean Energy Hot-Spots

Ciappi, Lorenzo; Cheli, Lapo; Simonetti, Irene; Bianchini, Alessandro; Manfrida, Giampaolo; Cappietti, Lorenzo

doi:10.3390/en13215582

Cited by 22 publications

(2 citation statements)

References 69 publications

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“…In [13], an application of an analytical wave-to-wire model of an OWC device for the preliminary optimization of these systems for a small installation in a moderate wave climate in the Mediterranean Sea, is presented, which determines power transformation from sea waves to the electric wire through a fast and reliable approach. In [14], a wave-to-wire model for OWC systems based on an impulse air turbine is provided. The model performs a comprehensive simulation of the system to estimate the attendant electric energy production for a specific sea state, based on analytical models of the primary (fixed chamber) and secondary (air turbine) converters coupled with the tertiary converter (electric generator).…”

Section: Introductionmentioning

confidence: 99%

A Novel Back-Stepping Sliding Mode Control Strategy of Direct-Drive Wave Energy Converters

Weng

Wang

2022

Processes

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In this paper, a maximum energy extraction and tracking strategy for direct-drive wave energy converters (DDWECs) based on back-stepping and sliding mode control strategies are developed. It is well known that the existence of the chattering phenomenon degrades the control performance of conventional sliding mode control (SMC). To mitigate the effects of flutter and external disturbances, a back-stepping sliding model control (BSMC) scheme is proposed. The main features of the proposed methodology are as follows: (1) By using the proposed BSMC, the maximum wave energy of DDWEC can be captured. Moreover, the speed tracking of the permanent magnet linear generator (PMLG), which is a subsystem of DDWEC, tracked in real-time. (2) By virtue of the proposed BSMC, the closed-loop control system is asymptotically stable in finite time. (3) With the superior controllability of the BSMC, it can handle disturbances that the SMC cannot handle. Comprehensive and comparative studies are proved to be superior to the most advanced method

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Section: Introductionmentioning

confidence: 99%

A Novel Back-Stepping Sliding Mode Control Strategy of Direct-Drive Wave Energy Converters

Weng

Wang

2022

Processes

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“…The timedomain models describe a WEC's dynamics. For example, wave-to-wire modeling of an OWC using a rigid piston model can be found in [9].…”

Section: Introductionmentioning

confidence: 99%

Wave Energy Converter’s Slack and Stiff Connection: Study of Absorbed Power in Irregular Waves

et al. 2021

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Two different concepts of wave energy converter coupled to the novel C-GEN linear generator have been studied numerically, including the evaluation of different buoy sizes. The first concept has a slack connection between the buoy and the generator on the seabed. Another concept is based on a stiff connection between the buoy and the generator placed on an offshore platform. Three different approaches to calculate the damping force have been utilized within this study: the optimal damping coefficient, R-load, and RC-load. R-load is a model for the load applied to a grid-connected generator with passive rectification. RC-load is a model for a phase angle compensation applied to a system with active rectification. The radiation forces originating from the oscillatory motion of the buoy have been approximated using the transfer function in the frequency domain and the vector fitting algorithm. A comparison of the approximation methods is presented, and their accuracy has been evaluated. The advantage of the vector fitting method has been shown, especially for higher approximation orders which fit the transfer function with high accuracy. The study’s final results are shown in terms of the absorbed power for the sea states of March 2018 at Wave Hub, UK.

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Design Integrated Electrical Machine-Impulse Turbine for Renewable Electrical Power Generation System

Tameemi¹

2022

J. Electr. Eng. Technol.

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Wave-to-Wire Model of an Oscillating-Water-Column Wave Energy Converter and Its Application to Mediterranean Energy Hot-Spots

Cited by 22 publications

References 69 publications

A Novel Back-Stepping Sliding Mode Control Strategy of Direct-Drive Wave Energy Converters

A Novel Back-Stepping Sliding Mode Control Strategy of Direct-Drive Wave Energy Converters

Wave Energy Converter’s Slack and Stiff Connection: Study of Absorbed Power in Irregular Waves

Design Integrated Electrical Machine-Impulse Turbine for Renewable Electrical Power Generation System

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