Towards a climatology of orographic induced wave drag in the stable boundary layer over real terrain
The stable boundary layer (SBL) is of particular interest for numerous environmental issues as air quality, aviation, fog forecasting, wind energy engineering, and climate modelling. Unfortunately the current understanding of the SBL is still rather poor, and progress is slow. The relatively poor understanding of the SBL is a direct consequence of the multiplicity of small-scale processes which may occur at the same time in the SBL. One of such a processes is generation of orographic induced gravity waves. In night-time stable conditions undulating orography in the landscape may trigger gravity wave propagation. Until now the quantitative role of orographic induced gravity wave drag to the total momentum budget of the SBL is rather limited, and solely originates from high resolution numerical studies over idealized terrain and for idealized forcing. At the same time it is realized that large-scale weather forecast models encounter problems with forecasting winds and temperatures in the stable boundary layer. Therefore it is tempting to further investigate the role of gravity wave drag on the SBL in a climatological sense, and as such this study extends earlier results from Steeneveld et al (2009) for a broader range of weather conditions and time frame. In order to do so, we run the high resolution WRF single column model in for the Great Plains (USA) area, which is characterized by small scale orography (amplitude ~10 m, wave length
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dig-wur-nl-wurpubs-4315102024-06-25 Kleczek, M.A. Steeneveld, G.J. Nappo, C.J. Holtslag, A.A.M. Article in monograph or in proceedings 20th Symposium on Boundary Layers and Turbulence/18th Conference on Air-Sea Interaction, American Meteorological Society (9-13 July 2012, Boston, MA) Towards a climatology of orographic induced wave drag in the stable boundary layer over real terrain 2012 The stable boundary layer (SBL) is of particular interest for numerous environmental issues as air quality, aviation, fog forecasting, wind energy engineering, and climate modelling. Unfortunately the current understanding of the SBL is still rather poor, and progress is slow. The relatively poor understanding of the SBL is a direct consequence of the multiplicity of small-scale processes which may occur at the same time in the SBL. One of such a processes is generation of orographic induced gravity waves. In night-time stable conditions undulating orography in the landscape may trigger gravity wave propagation. Until now the quantitative role of orographic induced gravity wave drag to the total momentum budget of the SBL is rather limited, and solely originates from high resolution numerical studies over idealized terrain and for idealized forcing. At the same time it is realized that large-scale weather forecast models encounter problems with forecasting winds and temperatures in the stable boundary layer. Therefore it is tempting to further investigate the role of gravity wave drag on the SBL in a climatological sense, and as such this study extends earlier results from Steeneveld et al (2009) for a broader range of weather conditions and time frame. In order to do so, we run the high resolution WRF single column model in for the Great Plains (USA) area, which is characterized by small scale orography (amplitude ~10 m, wave length en American Meteorological Society application/pdf https://research.wur.nl/en/publications/towards-a-climatology-of-orographic-induced-wave-drag-in-the-stab https://edepot.wur.nl/240885 Life Science Wageningen University & Research |
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Life Science Life Science Kleczek, M.A. Steeneveld, G.J. Nappo, C.J. Holtslag, A.A.M. Towards a climatology of orographic induced wave drag in the stable boundary layer over real terrain |
| description |
The stable boundary layer (SBL) is of particular interest for numerous environmental issues as air quality, aviation, fog forecasting, wind energy engineering, and climate modelling. Unfortunately the current understanding of the SBL is still rather poor, and progress is slow. The relatively poor understanding of the SBL is a direct consequence of the multiplicity of small-scale processes which may occur at the same time in the SBL. One of such a processes is generation of orographic induced gravity waves. In night-time stable conditions undulating orography in the landscape may trigger gravity wave propagation. Until now the quantitative role of orographic induced gravity wave drag to the total momentum budget of the SBL is rather limited, and solely originates from high resolution numerical studies over idealized terrain and for idealized forcing. At the same time it is realized that large-scale weather forecast models encounter problems with forecasting winds and temperatures in the stable boundary layer. Therefore it is tempting to further investigate the role of gravity wave drag on the SBL in a climatological sense, and as such this study extends earlier results from Steeneveld et al (2009) for a broader range of weather conditions and time frame. In order to do so, we run the high resolution WRF single column model in for the Great Plains (USA) area, which is characterized by small scale orography (amplitude ~10 m, wave length |
| format |
Article in monograph or in proceedings |
| topic_facet |
Life Science |
| author |
Kleczek, M.A. Steeneveld, G.J. Nappo, C.J. Holtslag, A.A.M. |
| author_facet |
Kleczek, M.A. Steeneveld, G.J. Nappo, C.J. Holtslag, A.A.M. |
| author_sort |
Kleczek, M.A. |
| title |
Towards a climatology of orographic induced wave drag in the stable boundary layer over real terrain |
| title_short |
Towards a climatology of orographic induced wave drag in the stable boundary layer over real terrain |
| title_full |
Towards a climatology of orographic induced wave drag in the stable boundary layer over real terrain |
| title_fullStr |
Towards a climatology of orographic induced wave drag in the stable boundary layer over real terrain |
| title_full_unstemmed |
Towards a climatology of orographic induced wave drag in the stable boundary layer over real terrain |
| title_sort |
towards a climatology of orographic induced wave drag in the stable boundary layer over real terrain |
| publisher |
American Meteorological Society |
| url |
https://research.wur.nl/en/publications/towards-a-climatology-of-orographic-induced-wave-drag-in-the-stab |
| work_keys_str_mv |
AT kleczekma towardsaclimatologyoforographicinducedwavedraginthestableboundarylayeroverrealterrain AT steeneveldgj towardsaclimatologyoforographicinducedwavedraginthestableboundarylayeroverrealterrain AT nappocj towardsaclimatologyoforographicinducedwavedraginthestableboundarylayeroverrealterrain AT holtslagaam towardsaclimatologyoforographicinducedwavedraginthestableboundarylayeroverrealterrain |
| _version_ |
1813203020538707968 |