Wind turbine wake characteristics in an atmospheric boundary layer far wake physical and numerical modelling

Guillaume Espana; Laurent Laporte; Sandrine Aubrun; Philippe Devi Nant; Eric Dupont

Wind turbine wake characteristics in an atmospheric boundary layer far wake physical and numerical modelling

Guillaume Espana
, Laurent Laporte
, Sandrine Aubrun
, Philippe Devi Nant
, Eric Dupont

conventionnée avec l'Université d'Orléans
Laboratoire Commun ENPC-EDF R and D

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

This paper combines a wind tunnel and a numerical study about the wind turbines wakes. Results in homogeneous flows are presented before comparisons in a moderately rough atmospheric boundary layer (z₀ = 0.06m, α = 0.17, turbulence intensity at hub height = 14%). Wind turbines were modelled in a wind tunnel as porous discs made of metallic mesh at a geometric scale of 1:400. The induction factor, which represents the operating point of the modelled wind turbine, was fixed equal to 0.12 (C_T = 0.422, C _P = 0.372). In the numerical simulation, wind turbines were modelled as porous discs as well, using pre-processed source terms to model the thrust and the rotation of the blades. The input velocity conditions were chosen to respect the induction factor of 0.12. The purpose of this work is to prove the validity of both models, respecting the 'actuator disc theory'. The final aim is to work on wind turbine interactions in order to optimise the layout.

Original language	English
Title of host publication	European Wind Energy Conference and Exhibition 2008
Pages	3048-3056
Number of pages	9
Publication status	Published - 1 Dec 2008
Externally published	Yes
Event	European Wind Energy Conference and Exhibition 2008, EWEC 2008 - Brussels, Belgium Duration: 31 Mar 2008 → 3 Apr 2008

Publication series

Name	European Wind Energy Conference and Exhibition 2008
Volume	6

Conference

Conference	European Wind Energy Conference and Exhibition 2008, EWEC 2008
Country/Territory	Belgium
City	Brussels
Period	31/03/08 → 3/04/08

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 7 Affordable and Clean Energy

Cite this

@inproceedings{5b748e4b601a4f2aa93606dc383d294a,

title = "Wind turbine wake characteristics in an atmospheric boundary layer far wake physical and numerical modelling",

abstract = "This paper combines a wind tunnel and a numerical study about the wind turbines wakes. Results in homogeneous flows are presented before comparisons in a moderately rough atmospheric boundary layer (z0 = 0.06m, α = 0.17, turbulence intensity at hub height = 14\%). Wind turbines were modelled in a wind tunnel as porous discs made of metallic mesh at a geometric scale of 1:400. The induction factor, which represents the operating point of the modelled wind turbine, was fixed equal to 0.12 (CT = 0.422, C P = 0.372). In the numerical simulation, wind turbines were modelled as porous discs as well, using pre-processed source terms to model the thrust and the rotation of the blades. The input velocity conditions were chosen to respect the induction factor of 0.12. The purpose of this work is to prove the validity of both models, respecting the 'actuator disc theory'. The final aim is to work on wind turbine interactions in order to optimise the layout.",

author = "Guillaume Espana and Laurent Laporte and Sandrine Aubrun and \{Devi Nant\}, Philippe and Eric Dupont",

year = "2008",

month = dec,

day = "1",

language = "English",

isbn = "9781615671151",

series = "European Wind Energy Conference and Exhibition 2008",

pages = "3048--3056",

booktitle = "European Wind Energy Conference and Exhibition 2008",

note = "European Wind Energy Conference and Exhibition 2008, EWEC 2008 ; Conference date: 31-03-2008 Through 03-04-2008",

}

Espana, G, Laporte, L, Aubrun, S, Devi Nant, P & Dupont, E 2008, Wind turbine wake characteristics in an atmospheric boundary layer far wake physical and numerical modelling. in European Wind Energy Conference and Exhibition 2008. European Wind Energy Conference and Exhibition 2008, vol. 6, pp. 3048-3056, European Wind Energy Conference and Exhibition 2008, EWEC 2008, Brussels, Belgium, 31/03/08.

Wind turbine wake characteristics in an atmospheric boundary layer far wake physical and numerical modelling. / Espana, Guillaume; Laporte, Laurent; Aubrun, Sandrine et al.
European Wind Energy Conference and Exhibition 2008. 2008. p. 3048-3056 (European Wind Energy Conference and Exhibition 2008; Vol. 6).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Wind turbine wake characteristics in an atmospheric boundary layer far wake physical and numerical modelling

AU - Espana, Guillaume

AU - Laporte, Laurent

AU - Aubrun, Sandrine

AU - Devi Nant, Philippe

AU - Dupont, Eric

PY - 2008/12/1

Y1 - 2008/12/1

N2 - This paper combines a wind tunnel and a numerical study about the wind turbines wakes. Results in homogeneous flows are presented before comparisons in a moderately rough atmospheric boundary layer (z0 = 0.06m, α = 0.17, turbulence intensity at hub height = 14%). Wind turbines were modelled in a wind tunnel as porous discs made of metallic mesh at a geometric scale of 1:400. The induction factor, which represents the operating point of the modelled wind turbine, was fixed equal to 0.12 (CT = 0.422, C P = 0.372). In the numerical simulation, wind turbines were modelled as porous discs as well, using pre-processed source terms to model the thrust and the rotation of the blades. The input velocity conditions were chosen to respect the induction factor of 0.12. The purpose of this work is to prove the validity of both models, respecting the 'actuator disc theory'. The final aim is to work on wind turbine interactions in order to optimise the layout.

AB - This paper combines a wind tunnel and a numerical study about the wind turbines wakes. Results in homogeneous flows are presented before comparisons in a moderately rough atmospheric boundary layer (z0 = 0.06m, α = 0.17, turbulence intensity at hub height = 14%). Wind turbines were modelled in a wind tunnel as porous discs made of metallic mesh at a geometric scale of 1:400. The induction factor, which represents the operating point of the modelled wind turbine, was fixed equal to 0.12 (CT = 0.422, C P = 0.372). In the numerical simulation, wind turbines were modelled as porous discs as well, using pre-processed source terms to model the thrust and the rotation of the blades. The input velocity conditions were chosen to respect the induction factor of 0.12. The purpose of this work is to prove the validity of both models, respecting the 'actuator disc theory'. The final aim is to work on wind turbine interactions in order to optimise the layout.

UR - https://www.scopus.com/pages/publications/84870005817

M3 - Conference contribution

AN - SCOPUS:84870005817

SN - 9781615671151

T3 - European Wind Energy Conference and Exhibition 2008

SP - 3048

EP - 3056

BT - European Wind Energy Conference and Exhibition 2008

T2 - European Wind Energy Conference and Exhibition 2008, EWEC 2008

Y2 - 31 March 2008 through 3 April 2008

ER -

Wind turbine wake characteristics in an atmospheric boundary layer far wake physical and numerical modelling

Abstract

Publication series

Conference

UN SDGs

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