TOPFARM - next generation design tool for optimisation of wind farm topology and operation
Publication: Research › Report – Annual report year: 2012
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TOPFARM - next generation design tool for optimisation of wind farm topology and operation. / Larsen, Gunner Chr.; Aagaard Madsen , Helge; Troldborg, Niels; Larsen, Torben J.; Réthoré, Pierre-Elouan; Fuglsang, Peter; Ott, Søren; Mann, Jakob; Buhl, Thomas; Nielsen, Morten; Markou, Helen; Sørensen, Jens Nørkær; Hansen, Kurt Schaldemose; Mikkelsen, Robert Flemming; Okulov, Valery; Shen, Wen Zhong; Heath, Malcolm; King, John; McCann, Graeme; Schlez, Wolfgang; Carlén, Ingemar; Ganander, Hans; Migoya, Emilio; Crespo, Antonio; Jiménez, Angel; Prieto, J.L.; Stidworthy, Amy; Carruthers, Davis; Hunt, Julian; Gray, Stephanie; Veldkamp, Dick; Mouritzen, Anders S.; Jensen, Leo; Krogh, Thomas; Schmidt, Björn; Argyriadis, Kimon; Frohböse, Peter.
Danmarks Tekniske Universitet, Risø Nationallaboratoriet for Bæredygtig Energi, 2011. 95 p. (Denmark. Forskningscenter Risoe. Risoe-R; No. 1805(EN)).Publication: Research › Report – Annual report year: 2012
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TY - RPRT
T1 - TOPFARM - next generation design tool for optimisation of wind farm topology and operation
A1 - Larsen,Gunner Chr.
A1 - Aagaard Madsen ,Helge
A1 - Troldborg,Niels
A1 - Larsen,Torben J.
A1 - Réthoré,Pierre-Elouan
A1 - Fuglsang,Peter
A1 - Ott,Søren
A1 - Mann,Jakob
A1 - Buhl,Thomas
A1 - Nielsen,Morten
A1 - Markou,Helen
A1 - Sørensen,Jens Nørkær
A1 - Hansen,Kurt Schaldemose
A1 - Mikkelsen,Robert Flemming
A1 - Okulov,Valery
A1 - Shen,Wen Zhong
A1 - Heath,Malcolm
A1 - King,John
A1 - McCann,Graeme
A1 - Schlez,Wolfgang
A1 - Carlén,Ingemar
A1 - Ganander,Hans
A1 - Migoya,Emilio
A1 - Crespo,Antonio
A1 - Jiménez,Angel
A1 - Prieto,J.L.
A1 - Stidworthy,Amy
A1 - Carruthers,Davis
A1 - Hunt,Julian
A1 - Gray,Stephanie
A1 - Veldkamp,Dick
A1 - Mouritzen,Anders S.
A1 - Jensen,Leo
A1 - Krogh,Thomas
A1 - Schmidt,Björn
A1 - Argyriadis,Kimon
A1 - Frohböse,Peter
AU - Larsen,Gunner Chr.
AU - Aagaard Madsen ,Helge
AU - Troldborg,Niels
AU - Larsen,Torben J.
AU - Réthoré,Pierre-Elouan
AU - Fuglsang,Peter
AU - Ott,Søren
AU - Mann,Jakob
AU - Buhl,Thomas
AU - Nielsen,Morten
AU - Markou,Helen
AU - Sørensen,Jens Nørkær
AU - Hansen,Kurt Schaldemose
AU - Mikkelsen,Robert Flemming
AU - Okulov,Valery
AU - Shen,Wen Zhong
AU - Heath,Malcolm
AU - King,John
AU - McCann,Graeme
AU - Schlez,Wolfgang
AU - Carlén,Ingemar
AU - Ganander,Hans
AU - Migoya,Emilio
AU - Crespo,Antonio
AU - Jiménez,Angel
AU - Prieto,J.L.
AU - Stidworthy,Amy
AU - Carruthers,Davis
AU - Hunt,Julian
AU - Gray,Stephanie
AU - Veldkamp,Dick
AU - Mouritzen,Anders S.
AU - Jensen,Leo
AU - Krogh,Thomas
AU - Schmidt,Björn
AU - Argyriadis,Kimon
AU - Frohböse,Peter
PB - Danmarks Tekniske Universitet, Risø Nationallaboratoriet for Bæredygtig Energi
PY - 2011
Y1 - 2011
N2 - The present report is the publishable final activity report for the EU project TOPFARM. The project has been running from 1st December 2007 to 30th November 2010, and has successfully addressed optimization of wind farm topology and control strategy based on aero-elastic modeling of loads as well as of power production as seen in an economical perspective. Crucial factors in this regard are the overall wind climate at the wind farm site, the position of the individual wind turbines, the wind turbine characteristics, the internal wind farm wind climate, the wind turbine control/operation strategy for wind turbines interacting through wakes, various cost models, the optimization strategy and a priori defined constraints imposed on the wind farm topology. In TOPFARM, the object function used in the optimization platform is formulated in economical terms, thus ensuring the optimal balance between capital costs, operation and maintenance costs, cost of fatigue lifetime consumption and power production output throughout the design lifetime of the wind farm. The report describes the project consortium and the project activities, which has been organized in 9 Work Packages. A summary description of the results is given, and reference is made to a large number of publications resulting from the project.
AB - The present report is the publishable final activity report for the EU project TOPFARM. The project has been running from 1st December 2007 to 30th November 2010, and has successfully addressed optimization of wind farm topology and control strategy based on aero-elastic modeling of loads as well as of power production as seen in an economical perspective. Crucial factors in this regard are the overall wind climate at the wind farm site, the position of the individual wind turbines, the wind turbine characteristics, the internal wind farm wind climate, the wind turbine control/operation strategy for wind turbines interacting through wakes, various cost models, the optimization strategy and a priori defined constraints imposed on the wind farm topology. In TOPFARM, the object function used in the optimization platform is formulated in economical terms, thus ensuring the optimal balance between capital costs, operation and maintenance costs, cost of fatigue lifetime consumption and power production output throughout the design lifetime of the wind farm. The report describes the project consortium and the project activities, which has been organized in 9 Work Packages. A summary description of the results is given, and reference is made to a large number of publications resulting from the project.
KW - Risø-R-1805
KW - Risø-R-1805(EN)
BT - TOPFARM - next generation design tool for optimisation of wind farm topology and operation
T3 - Denmark. Forskningscenter Risoe. Risoe-R
T3 - en_GB
ER -