Results of the research project AssiSt

Publikation: Beitrag in FachzeitschriftKonferenzaufsatz in FachzeitschriftForschungPeer-Review

Autoren

  • Timo Kühn
  • Andree Altmikus
  • Hussam Daboul
  • Alexander Radi
  • Siegfried Raasch
  • Christoph Knigge
  • Lennart Böske
  • Thorsten Schwarz
  • Christoph Heister
  • Annika Langer-Möller
  • Thorsten Lutz
  • Pascal Weihing
  • Christoph Schulz
  • Jakob Thiemeier
  • Charles Mockett
  • Marian Fuchs
  • Frank Thiele

Organisationseinheiten

Externe Organisationen

  • Deutsches Zentrum für Luft- und Raumfahrt e.V. (DLR)
  • Universität Stuttgart
  • CFD Software Entwicklungs- und Forschungsgesellschaft mbH
  • WRD Wobben Research & Development GmbH
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Aufsatznummer022040
FachzeitschriftJournal of Physics: Conference Series
Jahrgang1037
Ausgabenummer2
Frühes Online-Datum19 Juni 2018
PublikationsstatusElektronisch veröffentlicht (E-Pub) - 19 Juni 2018
Veranstaltung7th Science of Making Torque from Wind, TORQUE 2018 - Milan, Italien
Dauer: 20 Juni 201822 Juni 2018

Abstract

This article gives an overview of the results of the wind energy research project AssiSt. Results of the four work packages include flow in complex terrain, wind energy converters (WEC) in complex terrain subject to atmospheric inflow, laminar-turbulent transition, generator cooling, hub aerodynamics, and passive flow control devices. Four different flow solvers (PALM, FLOWer, THETA, OpenFOAM) are in use during the course of the project depending on the corresponding problem requiring specific solver features. Key achievements of the project are the coupling of atmospheric LES (PALM) and URANS simulations of the complete WEC (FLOWer as well as THETA) in order to impose the external turbulent flow fields to the inflow of the WEC for physics resolved load simulations, numerical replication of complex flows over blades with vortex generators using OpenFOAM and efficiency-augmented pressure loss simulations on very complex industrial geometries of ENERCON's direct drive WEC generators for precise cooling analyses. Industrial validity of all methods, model and process developments were key objectives of this research project.

ASJC Scopus Sachgebiete

Zitieren

Results of the research project AssiSt. / Kühn, Timo; Altmikus, Andree; Daboul, Hussam et al.
in: Journal of Physics: Conference Series, Jahrgang 1037, Nr. 2, 022040, 19.06.2018.

Publikation: Beitrag in FachzeitschriftKonferenzaufsatz in FachzeitschriftForschungPeer-Review

Kühn, T, Altmikus, A, Daboul, H, Radi, A, Raasch, S, Knigge, C, Böske, L, Schwarz, T, Heister, C, Langer-Möller, A, Lutz, T, Weihing, P, Schulz, C, Thiemeier, J, Mockett, C, Fuchs, M & Thiele, F 2018, 'Results of the research project AssiSt', Journal of Physics: Conference Series, Jg. 1037, Nr. 2, 022040. https://doi.org/10.1088/1742-6596/1037/2/022040
Kühn, T., Altmikus, A., Daboul, H., Radi, A., Raasch, S., Knigge, C., Böske, L., Schwarz, T., Heister, C., Langer-Möller, A., Lutz, T., Weihing, P., Schulz, C., Thiemeier, J., Mockett, C., Fuchs, M., & Thiele, F. (2018). Results of the research project AssiSt. Journal of Physics: Conference Series, 1037(2), Artikel 022040. Vorabveröffentlichung online. https://doi.org/10.1088/1742-6596/1037/2/022040
Kühn T, Altmikus A, Daboul H, Radi A, Raasch S, Knigge C et al. Results of the research project AssiSt. Journal of Physics: Conference Series. 2018 Jun 19;1037(2):022040. Epub 2018 Jun 19. doi: 10.1088/1742-6596/1037/2/022040
Kühn, Timo ; Altmikus, Andree ; Daboul, Hussam et al. / Results of the research project AssiSt. in: Journal of Physics: Conference Series. 2018 ; Jahrgang 1037, Nr. 2.
Download
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title = "Results of the research project AssiSt",
abstract = "This article gives an overview of the results of the wind energy research project AssiSt. Results of the four work packages include flow in complex terrain, wind energy converters (WEC) in complex terrain subject to atmospheric inflow, laminar-turbulent transition, generator cooling, hub aerodynamics, and passive flow control devices. Four different flow solvers (PALM, FLOWer, THETA, OpenFOAM) are in use during the course of the project depending on the corresponding problem requiring specific solver features. Key achievements of the project are the coupling of atmospheric LES (PALM) and URANS simulations of the complete WEC (FLOWer as well as THETA) in order to impose the external turbulent flow fields to the inflow of the WEC for physics resolved load simulations, numerical replication of complex flows over blades with vortex generators using OpenFOAM and efficiency-augmented pressure loss simulations on very complex industrial geometries of ENERCON's direct drive WEC generators for precise cooling analyses. Industrial validity of all methods, model and process developments were key objectives of this research project.",
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T1 - Results of the research project AssiSt

AU - Kühn, Timo

AU - Altmikus, Andree

AU - Daboul, Hussam

AU - Radi, Alexander

AU - Raasch, Siegfried

AU - Knigge, Christoph

AU - Böske, Lennart

AU - Schwarz, Thorsten

AU - Heister, Christoph

AU - Langer-Möller, Annika

AU - Lutz, Thorsten

AU - Weihing, Pascal

AU - Schulz, Christoph

AU - Thiemeier, Jakob

AU - Mockett, Charles

AU - Fuchs, Marian

AU - Thiele, Frank

N1 - Funding information: The project AssiSt (Anlagenströmungssimulation und Standortbewertung) was funded by the German Federal Ministry of Economic Affairs and Energy under the grant number 0325719A.

PY - 2018/6/19

Y1 - 2018/6/19

N2 - This article gives an overview of the results of the wind energy research project AssiSt. Results of the four work packages include flow in complex terrain, wind energy converters (WEC) in complex terrain subject to atmospheric inflow, laminar-turbulent transition, generator cooling, hub aerodynamics, and passive flow control devices. Four different flow solvers (PALM, FLOWer, THETA, OpenFOAM) are in use during the course of the project depending on the corresponding problem requiring specific solver features. Key achievements of the project are the coupling of atmospheric LES (PALM) and URANS simulations of the complete WEC (FLOWer as well as THETA) in order to impose the external turbulent flow fields to the inflow of the WEC for physics resolved load simulations, numerical replication of complex flows over blades with vortex generators using OpenFOAM and efficiency-augmented pressure loss simulations on very complex industrial geometries of ENERCON's direct drive WEC generators for precise cooling analyses. Industrial validity of all methods, model and process developments were key objectives of this research project.

AB - This article gives an overview of the results of the wind energy research project AssiSt. Results of the four work packages include flow in complex terrain, wind energy converters (WEC) in complex terrain subject to atmospheric inflow, laminar-turbulent transition, generator cooling, hub aerodynamics, and passive flow control devices. Four different flow solvers (PALM, FLOWer, THETA, OpenFOAM) are in use during the course of the project depending on the corresponding problem requiring specific solver features. Key achievements of the project are the coupling of atmospheric LES (PALM) and URANS simulations of the complete WEC (FLOWer as well as THETA) in order to impose the external turbulent flow fields to the inflow of the WEC for physics resolved load simulations, numerical replication of complex flows over blades with vortex generators using OpenFOAM and efficiency-augmented pressure loss simulations on very complex industrial geometries of ENERCON's direct drive WEC generators for precise cooling analyses. Industrial validity of all methods, model and process developments were key objectives of this research project.

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