Performance of Closely Spaced Point Absorbers with Constrained Floater Motion

G. De Backer; M. Vantorre; C. Beels; J. De Rouck; Peter Frigaard

Performance of Closely Spaced Point Absorbers with Constrained Floater Motion

G. De Backer, M. Vantorre, C. Beels, J. De Rouck, Peter Frigaard

Research output: Contribution to book/anthology/report/conference proceeding › Article in proceeding › Research › peer-review

Abstract

The performance of a wave energy converter array of twelve heaving point absorbers has been assessed numerically in a frequency domain model. Each point absorber is assumed to have its own linear power take-off. The impact of slamming, stroke and force restrictions on the power absorption is evaluated and optimal power take-off parameters are determined. For multiple bodies optimal control parameters are not only dependent on the incoming waves, but also on the position and behaviour of the other buoys. Applying the optimal control values for one buoy to multiple closely spaced buoys results in a suboptimal solution, as will be illustrated. Other ways to determine the power take-off parameters are diagonal optimization and individual optimization. The latter method is found to increase the power absorption with about 14% compared to diagonal optimization.

Original language	English
Title of host publication	Proceedings of the 8th European Wave and Tidal Energy Conference : EWTEC 2009
Publication date	2009
Pages	806-817
Publication status	Published - 2009
Event	The European Wave and Tidal Conference (EWTEC) - Uppsala, Sweden Duration: 7 Sept 2009 → 10 Sept 2009 Conference number: 8

Conference

Conference	The European Wave and Tidal Conference (EWTEC)
Number	8
Country/Territory	Sweden
City	Uppsala
Period	07/09/2009 → 10/09/2009

Bibliographical note

Published on a cd.

Keywords

Array
Constraints
Multiple Bodies
Point Absorbers
Wave Energy

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@inproceedings{1d100400060b11df9046000ea68e967b,

title = "Performance of Closely Spaced Point Absorbers with Constrained Floater Motion",

abstract = "The performance of a wave energy converter array of twelve heaving point absorbers has been assessed numerically in a frequency domain model. Each point absorber is assumed to have its own linear power take-off. The impact of slamming, stroke and force restrictions on the power absorption is evaluated and optimal power take-off parameters are determined. For multiple bodies optimal control parameters are not only dependent on the incoming waves, but also on the position and behaviour of the other buoys. Applying the optimal control values for one buoy to multiple closely spaced buoys results in a suboptimal solution, as will be illustrated. Other ways to determine the power take-off parameters are diagonal optimization and individual optimization. The latter method is found to increase the power absorption with about 14% compared to diagonal optimization.",

keywords = "Array, Constraints, Multiple Bodies, Point Absorbers, Wave Energy, Array, Constraints, Multiple Bodies, Point Absorbers, Wave Energy",

author = "{De Backer}, G. and M. Vantorre and C. Beels and {De Rouck}, J. and Peter Frigaard",

note = "Published on a cd.; The European Wave and Tidal Conference (EWTEC) ; Conference date: 07-09-2009 Through 10-09-2009",

year = "2009",

language = "English",

pages = "806--817",

booktitle = "Proceedings of the 8th European Wave and Tidal Energy Conference",

}

TY - GEN

T1 - Performance of Closely Spaced Point Absorbers with Constrained Floater Motion

AU - De Backer, G.

AU - Vantorre, M.

AU - Beels, C.

AU - De Rouck, J.

AU - Frigaard, Peter

N1 - Conference code: 8

PY - 2009

Y1 - 2009

N2 - The performance of a wave energy converter array of twelve heaving point absorbers has been assessed numerically in a frequency domain model. Each point absorber is assumed to have its own linear power take-off. The impact of slamming, stroke and force restrictions on the power absorption is evaluated and optimal power take-off parameters are determined. For multiple bodies optimal control parameters are not only dependent on the incoming waves, but also on the position and behaviour of the other buoys. Applying the optimal control values for one buoy to multiple closely spaced buoys results in a suboptimal solution, as will be illustrated. Other ways to determine the power take-off parameters are diagonal optimization and individual optimization. The latter method is found to increase the power absorption with about 14% compared to diagonal optimization.

AB - The performance of a wave energy converter array of twelve heaving point absorbers has been assessed numerically in a frequency domain model. Each point absorber is assumed to have its own linear power take-off. The impact of slamming, stroke and force restrictions on the power absorption is evaluated and optimal power take-off parameters are determined. For multiple bodies optimal control parameters are not only dependent on the incoming waves, but also on the position and behaviour of the other buoys. Applying the optimal control values for one buoy to multiple closely spaced buoys results in a suboptimal solution, as will be illustrated. Other ways to determine the power take-off parameters are diagonal optimization and individual optimization. The latter method is found to increase the power absorption with about 14% compared to diagonal optimization.

KW - Array

KW - Constraints

KW - Multiple Bodies

KW - Point Absorbers

KW - Wave Energy

KW - Array

KW - Constraints

KW - Multiple Bodies

KW - Point Absorbers

KW - Wave Energy

M3 - Article in proceeding

SP - 806

EP - 817

BT - Proceedings of the 8th European Wave and Tidal Energy Conference

T2 - The European Wave and Tidal Conference (EWTEC)

Y2 - 7 September 2009 through 10 September 2009

ER -

Performance of Closely Spaced Point Absorbers with Constrained Floater Motion

Abstract

Conference

Bibliographical note

Keywords

AUB Link

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