A Simple and Effective Real-Time Controller for Wave Energy Converters

Fusco, Francesco; Ringwood, John V.

doi:10.1109/tste.2012.2196717

Cited by 139 publications

(157 citation statements)

References 30 publications

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“…Classical control methods such as reactive control, (Budal and Falnes, 1977) and latching, (Budal and Falnes, 1980) have been used to extract maximum or close to maximum average power. The effect of system constraints have been investigated, (Fusco and Ringwood, 2013) as well as the use of a realistic non-ideal Power Take Off (PTO), (Tedeschi et al, 2011). Both latching and reactive control were originally designed to operate in monochromatic seas, however, there have been attempts to extend their use for irregular sea conditions, (Fusco and Ringwood, 2011;Babarit et al, 2004).…”

Section: Introductionmentioning

confidence: 99%

The Effect of Viscosity on the Maximisation of Electrical Power from a Wave Energy Converter under Predictive Control

O'Sullivan

Lightbody

2017

IFAC-PapersOnLine

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In this paper, the non-linear effects of viscosity on the performance of a Wave Energy Converter (WEC) system are analysed. A standard linear Model Predictive Control (MPC) is used to show the negative effects that the unaccounted non-linear viscosity force in the hydrodynamic system has on the power absorption. A non-linear MPC (NLMPC) is then implemented, where the non-linear viscosity effects are included in the optimisation. A linear drag coefficient estimate of the non-linear viscosity is then included in the linear MPC; creating a Linear Viscous Model Predictive Control. When constraints are incorporated, it is shown that a single choice of the linear viscous drag coefficient for use within the linear MPC can provide comparable results to the non-linear MPC approach, over a wide range of sea states.

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Section: Introductionmentioning

confidence: 99%

The Effect of Viscosity on the Maximisation of Electrical Power from a Wave Energy Converter under Predictive Control

O'Sullivan

Lightbody

2017

IFAC-PapersOnLine

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“…The simple controller, when compared with a model predictive controller (MPC) in both wide-and narrow-banded seas, has a relative capture with within about 10% of the MPC, but has superior robustness to variations in K b . Further details on this controller are given in (Fusco and Ringwood, 2013).…”

Section: Simple (But Effective) Controlmentioning

confidence: 99%

“…While some WEC control algorithms circumvent the need to predict future variations in free surface elevation or excitation force (Fusco and Ringwood, 2013;Scruggs et al, 2013), in general there is a need to provide forecast values of free surface elevation or excitation force due to the non-causality of the optimal PTO force, as articulated in Section 4. Fortunately, there is a strong positive connection between the wave forecasting requirements of energy maximising control (Fusco and Ringwood, 2012) and the forecastability of random seas , due to the close relationship between the radiation damping dynamics and the design sea state (i.e.…”

Section: Wave Forecastingmentioning

confidence: 99%

Control, forecasting and optimisation for wave energy conversion

Ringwood

Bacelli

Fusco

2014

IFAC Proceedings Volumes

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This paper presents an overview of the motivation, background to and state-ofthe-art in energy maximising control of wave energy devices. The underpinning mathematical modelling is described and the control fundamentals established. Two example control schemes are presented, along with some algorithms for wave forecasting, which can be a necessary requirement, due to the non-causal nature of some optimal control strategies. One of the control schemes is extended to show how cooperative control of devices in a wave farm can be beneficial. The paper also includes perspectives on the interaction between control and the broader objectives of optimal wave energy device geometry and full techno-economic optimisation of wave energy converters.

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“…As a result, peak loads are normally greater than in continuous cases (Babarit and Clément 2006;Folley and Whittaker 2009;Babarit et al 2009;Clément and Babarit 2012). Also included are controllers such as the 'Simple and Effective Controller ' Fusco and Ringwood (2013) which use similar approaches to MPC or complex-conjugate control but make assumptions or simplifications in order to implement them in real time.…”

Section: Introductionmentioning

confidence: 99%

A Self-zeroing position controller for oscillating surge wave energy converters with strong asymmetry

Sell

Plummer

Hillis

2018

J. Ocean Eng. Mar. Energy

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Oscillating surge wave energy converters (OSWECs) offer the possibility to convert ocean wave energy in the near shore region into electricity. One of the unique challenges they present is that the forces experienced in each direction differ. The curved geometry of the CCell device exaggerates this difference. Presented in this paper is a novel method of dealing with this difference which does not rely on high buoyancy within the paddle but, instead, variations in the control signals. This reduces the likelihood and severity of end stop collisions , resulting in improved survivability and reduced lifetime costs without increasing the volume and cost of the device. The algorithm presented may further be used to compensate for individual manufacturing tolerances or deterioration to OSWECs whilst in operation.

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A Simple and Effective Real-Time Controller for Wave Energy Converters

Cited by 139 publications

References 30 publications

The Effect of Viscosity on the Maximisation of Electrical Power from a Wave Energy Converter under Predictive Control

The Effect of Viscosity on the Maximisation of Electrical Power from a Wave Energy Converter under Predictive Control

Control, forecasting and optimisation for wave energy conversion

A Self-zeroing position controller for oscillating surge wave energy converters with strong asymmetry

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