Turbine Control Strategy using Wave Prediction to Optimise Power Take Off of Overtopping Wave Energy Converters

James Tedd; Wilfried Knapp; Peter Frigaard; Jens Peter Kofoed

Turbine Control Strategy using Wave Prediction to Optimise Power Take Off of Overtopping Wave Energy Converters

James Tedd, Wilfried Knapp, Peter Frigaard, Jens Peter Kofoed

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

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Abstract

This paper presents the control strategy used on Wave Dragon overtopping wave energy converter. The nature of overtopping requires that for optimum performance the water level in the reservoir must be controlled by controlling the turbine outflows. A history of the simulations performed is included. The concept of including an element of prediction, based on wave records a short distance in front of the Wave Dragon, is introduced. Initial simulations indicate a possibility to increase production by 5 to 10 % with knowledge of the next five overtopping events. It is intended to further this research with more computer simulations and tests on the 1:4.5 scale prototype Wave Dragon.

Original language	English
Title of host publication	Proceedings of the Second CA-OE Workshop : Component Technology and Power Take-Off, Uppsala, 2-3 November, 2005
Number of pages	10
Publisher	Coordination Action on Ocean Energy (CA-OE) : Sixth Framework Programme
Publication date	2005
Publication status	Published - 2005
Event	The Second CA-OE Workshop : Component Technology and Power Take-Off - Uppsala, Sweden Duration: 2 Nov 2005 → 3 Nov 2005

Conference

Conference	The Second CA-OE Workshop : Component Technology and Power Take-Off
Country/Territory	Sweden
City	Uppsala
Period	02/11/2005 → 03/11/2005

Bibliographical note

PDF for print: 10 pp.

Keywords

Control Strategies
Wave Dragon
Overtoppings
Wave Energy Converters
Outflows

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@inproceedings{ed8211609c2c11db8ed6000ea68e967b,

title = "Turbine Control Strategy using Wave Prediction to Optimise Power Take Off of Overtopping Wave Energy Converters",

abstract = "This paper presents the control strategy used on Wave Dragon overtopping wave energy converter. The nature of overtopping requires that for optimum performance the water level in the reservoir must be controlled by controlling the turbine outflows. A history of the simulations performed is included. The concept of including an element of prediction, based on wave records a short distance in front of the Wave Dragon, is introduced. Initial simulations indicate a possibility to increase production by 5 to 10 % with knowledge of the next five overtopping events. It is intended to further this research with more computer simulations and tests on the 1:4.5 scale prototype Wave Dragon.",

keywords = "Control Strategies, Wave Dragon, Overtoppings, Wave Energy Converters, Outflows, Control Strategies, Wave Dragon, Overtoppings, Wave Energy Converters, Outflows",

author = "James Tedd and Wilfried Knapp and Peter Frigaard and Kofoed, {Jens Peter}",

note = "PDF for print: 10 pp.; The Second CA-OE Workshop : Component Technology and Power Take-Off ; Conference date: 02-11-2005 Through 03-11-2005",

year = "2005",

language = "English",

booktitle = "Proceedings of the Second CA-OE Workshop",

publisher = "Coordination Action on Ocean Energy (CA-OE) : Sixth Framework Programme",

}

Tedd, J, Knapp, W, Frigaard, P & Kofoed, JP 2005, Turbine Control Strategy using Wave Prediction to Optimise Power Take Off of Overtopping Wave Energy Converters. in Proceedings of the Second CA-OE Workshop: Component Technology and Power Take-Off, Uppsala, 2-3 November, 2005. Coordination Action on Ocean Energy (CA-OE) : Sixth Framework Programme, The Second CA-OE Workshop : Component Technology and Power Take-Off, Uppsala, Sweden, 02/11/2005.

Turbine Control Strategy using Wave Prediction to Optimise Power Take Off of Overtopping Wave Energy Converters. / Tedd, James; Knapp, Wilfried; Frigaard, Peter et al.
Proceedings of the Second CA-OE Workshop: Component Technology and Power Take-Off, Uppsala, 2-3 November, 2005. Coordination Action on Ocean Energy (CA-OE) : Sixth Framework Programme, 2005.

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

TY - GEN

T1 - Turbine Control Strategy using Wave Prediction to Optimise Power Take Off of Overtopping Wave Energy Converters

AU - Tedd, James

AU - Knapp, Wilfried

AU - Frigaard, Peter

AU - Kofoed, Jens Peter

N1 - PDF for print: 10 pp.

PY - 2005

Y1 - 2005

N2 - This paper presents the control strategy used on Wave Dragon overtopping wave energy converter. The nature of overtopping requires that for optimum performance the water level in the reservoir must be controlled by controlling the turbine outflows. A history of the simulations performed is included. The concept of including an element of prediction, based on wave records a short distance in front of the Wave Dragon, is introduced. Initial simulations indicate a possibility to increase production by 5 to 10 % with knowledge of the next five overtopping events. It is intended to further this research with more computer simulations and tests on the 1:4.5 scale prototype Wave Dragon.

AB - This paper presents the control strategy used on Wave Dragon overtopping wave energy converter. The nature of overtopping requires that for optimum performance the water level in the reservoir must be controlled by controlling the turbine outflows. A history of the simulations performed is included. The concept of including an element of prediction, based on wave records a short distance in front of the Wave Dragon, is introduced. Initial simulations indicate a possibility to increase production by 5 to 10 % with knowledge of the next five overtopping events. It is intended to further this research with more computer simulations and tests on the 1:4.5 scale prototype Wave Dragon.

KW - Control Strategies

KW - Wave Dragon

KW - Overtoppings

KW - Wave Energy Converters

KW - Outflows

KW - Control Strategies

KW - Wave Dragon

KW - Overtoppings

KW - Wave Energy Converters

KW - Outflows

M3 - Article in proceeding

BT - Proceedings of the Second CA-OE Workshop

PB - Coordination Action on Ocean Energy (CA-OE) : Sixth Framework Programme

T2 - The Second CA-OE Workshop : Component Technology and Power Take-Off

Y2 - 2 November 2005 through 3 November 2005

ER -

Turbine Control Strategy using Wave Prediction to Optimise Power Take Off of Overtopping Wave Energy Converters

Abstract

Conference

Bibliographical note

Keywords

Access to Document

AUB Link

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Cite this