The Explicit Wake Parametrisation V1.0: a wind farm parametrisation in the mesoscale model WRF

The Explicit Wake Parametrisation V1.0: a wind farm parametrisation in the mesoscale model WRF

We describe the theoretical basis, implementation, and validation of a new parametrisation that accounts for the effect of large offshore wind farms on the atmosphere and can be used in mesoscale and large-scale atmospheric models. This new parametrisation, referred to as the Explicit Wake P...

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Main Authors: P. J. H. Volker, J. Badger, A. N. Hahmann, S. Ott
Format: Article
Language:English
Published: Copernicus Publications 2015-11-01
Series:Geoscientific Model Development
Online Access:http://www.geosci-model-dev.net/8/3715/2015/gmd-8-3715-2015.pdf
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spelling doaj-0a011134effd4125bb7980e9f5f45ce32020-11-24T21:36:26ZengCopernicus PublicationsGeoscientific Model Development1991-959X1991-96032015-11-018113715373110.5194/gmd-8-3715-2015The Explicit Wake Parametrisation V1.0: a wind farm parametrisation in the mesoscale model WRFP. J. H. Volker0J. Badger1A. N. Hahmann2S. Ott3Wind Energy Department, Technical University of Denmark, Risø Campus, Roskilde, DenmarkWind Energy Department, Technical University of Denmark, Risø Campus, Roskilde, DenmarkWind Energy Department, Technical University of Denmark, Risø Campus, Roskilde, DenmarkWind Energy Department, Technical University of Denmark, Risø Campus, Roskilde, DenmarkWe describe the theoretical basis, implementation, and validation of a new parametrisation that accounts for the effect of large offshore wind farms on the atmosphere and can be used in mesoscale and large-scale atmospheric models. This new parametrisation, referred to as the Explicit Wake Parametrisation (EWP), uses classical wake theory to describe the unresolved wake expansion. The EWP scheme is validated for a neutral atmospheric boundary layer against filtered in situ measurements from two meteorological masts situated a few kilometres away from the Danish offshore wind farm Horns Rev I. The simulated velocity deficit in the wake of the wind farm compares well to that observed in the measurements, and the velocity profile is qualitatively similar to that simulated with large eddy simulation models and from wind tunnel studies. At the same time, the validation process highlights the challenges in verifying such models with real observations.http://www.geosci-model-dev.net/8/3715/2015/gmd-8-3715-2015.pdf
collection DOAJ
language English
format Article
sources DOAJ
author P. J. H. Volker
J. Badger
A. N. Hahmann
S. Ott
spellingShingle P. J. H. Volker
J. Badger
A. N. Hahmann
S. Ott
The Explicit Wake Parametrisation V1.0: a wind farm parametrisation in the mesoscale model WRF
Geoscientific Model Development
author_facet P. J. H. Volker
J. Badger
A. N. Hahmann
S. Ott
author_sort P. J. H. Volker
title The Explicit Wake Parametrisation V1.0: a wind farm parametrisation in the mesoscale model WRF
title_short The Explicit Wake Parametrisation V1.0: a wind farm parametrisation in the mesoscale model WRF
title_full The Explicit Wake Parametrisation V1.0: a wind farm parametrisation in the mesoscale model WRF
title_fullStr The Explicit Wake Parametrisation V1.0: a wind farm parametrisation in the mesoscale model WRF
title_full_unstemmed The Explicit Wake Parametrisation V1.0: a wind farm parametrisation in the mesoscale model WRF
title_sort explicit wake parametrisation v1.0: a wind farm parametrisation in the mesoscale model wrf
publisher Copernicus Publications
series Geoscientific Model Development
issn 1991-959X
1991-9603
publishDate 2015-11-01
description We describe the theoretical basis, implementation, and validation of a new parametrisation that accounts for the effect of large offshore wind farms on the atmosphere and can be used in mesoscale and large-scale atmospheric models. This new parametrisation, referred to as the Explicit Wake Parametrisation (EWP), uses classical wake theory to describe the unresolved wake expansion. The EWP scheme is validated for a neutral atmospheric boundary layer against filtered in situ measurements from two meteorological masts situated a few kilometres away from the Danish offshore wind farm Horns Rev I. The simulated velocity deficit in the wake of the wind farm compares well to that observed in the measurements, and the velocity profile is qualitatively similar to that simulated with large eddy simulation models and from wind tunnel studies. At the same time, the validation process highlights the challenges in verifying such models with real observations.
url http://www.geosci-model-dev.net/8/3715/2015/gmd-8-3715-2015.pdf
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