Beyond the CP-curve in Model-based Control of Wind Turbines

Publication: Research - peer-reviewArticle in proceedings – Annual report year: 2012

Standard

Beyond the CP-curve in Model-based Control of Wind Turbines. / Henriksen, Lars Christian; Hansen, Morten Hartvig; Poulsen, Niels Kjølstad.

Scientific Proceedings of EWEA 2012 - European Wind Energy Conference & Exhibition. European Wind Energy Association (EWEA), 2012. p. 147-152.

Publication: Research - peer-reviewArticle in proceedings – Annual report year: 2012

Harvard

Henriksen, LC, Hansen, MH & Poulsen, NK 2012, 'Beyond the CP-curve in Model-based Control of Wind Turbines'. in Scientific Proceedings of EWEA 2012 - European Wind Energy Conference & Exhibition. European Wind Energy Association (EWEA), pp. 147-152.

APA

Henriksen, L. C., Hansen, M. H., & Poulsen, N. K. (2012). Beyond the CP-curve in Model-based Control of Wind Turbines. In Scientific Proceedings of EWEA 2012 - European Wind Energy Conference & Exhibition. (pp. 147-152). European Wind Energy Association (EWEA).

CBE

Henriksen LC, Hansen MH, Poulsen NK. 2012. Beyond the CP-curve in Model-based Control of Wind Turbines. In Scientific Proceedings of EWEA 2012 - European Wind Energy Conference & Exhibition. European Wind Energy Association (EWEA). pp. 147-152.

MLA

Henriksen, Lars Christian, Morten Hartvig Hansen, and Niels Kjølstad Poulsen "Beyond the CP-curve in Model-based Control of Wind Turbines". Scientific Proceedings of EWEA 2012 - European Wind Energy Conference & Exhibition. European Wind Energy Association (EWEA). 2012. 147-152.

Vancouver

Henriksen LC, Hansen MH, Poulsen NK. Beyond the CP-curve in Model-based Control of Wind Turbines. In Scientific Proceedings of EWEA 2012 - European Wind Energy Conference & Exhibition. European Wind Energy Association (EWEA). 2012. p. 147-152.

Author

Henriksen, Lars Christian; Hansen, Morten Hartvig; Poulsen, Niels Kjølstad / Beyond the CP-curve in Model-based Control of Wind Turbines.

Scientific Proceedings of EWEA 2012 - European Wind Energy Conference & Exhibition. European Wind Energy Association (EWEA), 2012. p. 147-152.

Publication: Research - peer-reviewArticle in proceedings – Annual report year: 2012

Bibtex

@inbook{4d539d48e3384938aff55bb3ef5c7eb3,
title = "Beyond the CP-curve in Model-based Control of Wind Turbines",
keywords = "Dynamic inflow, Model-based control, Model-based state estimation",
publisher = "European Wind Energy Association (EWEA)",
author = "Henriksen, {Lars Christian} and Hansen, {Morten Hartvig} and Poulsen, {Niels Kjølstad}",
year = "2012",
pages = "147-152",
booktitle = "Scientific Proceedings of EWEA 2012 - European Wind Energy Conference & Exhibition",

}

RIS

TY - GEN

T1 - Beyond the CP-curve in Model-based Control of Wind Turbines

A1 - Henriksen,Lars Christian

A1 - Hansen,Morten Hartvig

A1 - Poulsen,Niels Kjølstad

AU - Henriksen,Lars Christian

AU - Hansen,Morten Hartvig

AU - Poulsen,Niels Kjølstad

PB - European Wind Energy Association (EWEA)

PY - 2012

Y1 - 2012

N2 - The importance of including dynamic inflow in the model used by the control algorithm is investigated in this contribution. A control setup consisting of a model predictive controller and an extended Kalman filter in conjunction with mechanisms to switch smoothly between partial and full load operation is presented. Results, obtained from high-fidelity simulations, with and without dynamic inflow taken into account by the model-based control setup, show that the inclusion of dynamic inflow is important when operating in conditions close to the rated wind. The presented control setup does not employ collective pitch actuation during partial load operation, for e.g. load mitigation purposes, otherwise dynamic inflow would have been seen to also be of importance for all wind speeds below the rated wind speed.

AB - The importance of including dynamic inflow in the model used by the control algorithm is investigated in this contribution. A control setup consisting of a model predictive controller and an extended Kalman filter in conjunction with mechanisms to switch smoothly between partial and full load operation is presented. Results, obtained from high-fidelity simulations, with and without dynamic inflow taken into account by the model-based control setup, show that the inclusion of dynamic inflow is important when operating in conditions close to the rated wind. The presented control setup does not employ collective pitch actuation during partial load operation, for e.g. load mitigation purposes, otherwise dynamic inflow would have been seen to also be of importance for all wind speeds below the rated wind speed.

KW - Dynamic inflow

KW - Model-based control

KW - Model-based state estimation

BT - Scientific Proceedings of EWEA 2012 - European Wind Energy Conference & Exhibition

T2 - Scientific Proceedings of EWEA 2012 - European Wind Energy Conference & Exhibition

SP - 147

EP - 152

ER -