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@article{1395006, author = {Láska, Kamil and Chládová, Zuzana and Hošek, Jiří}, article_location = {STUTTGART, GERMANY}, article_number = {4}, doi = {http://dx.doi.org/10.1127/metz/2017/0796}, keywords = {surface wind field; model evaluation; topographic effect; circulation pattern; Svalbard}, language = {eng}, issn = {0941-2948}, journal = {Meteorologische Zeitschrift}, title = {High-resolution numerical simulation of summer wind field comparing WRF boundary-layer parametrizations over complex Arctic topography: case study from central Spitsbergen}, volume = {26}, year = {2017} }
TY - JOUR ID - 1395006 AU - Láska, Kamil - Chládová, Zuzana - Hošek, Jiří PY - 2017 TI - High-resolution numerical simulation of summer wind field comparing WRF boundary-layer parametrizations over complex Arctic topography: case study from central Spitsbergen JF - Meteorologische Zeitschrift VL - 26 IS - 4 SP - 391-408 EP - 391-408 PB - E SCHWEIZERBARTSCHE VERLAGSBUCHHANDLUNG SN - 09412948 KW - surface wind field KW - model evaluation KW - topographic effect KW - circulation pattern KW - Svalbard N2 - The Weather Research and Forecasting (WRF) mesoscale model was run in three different configurations over Svalbard Archipelago and compared with the 12-day summer measurements of surface wind characteristics at three sites along the western coast of Petuniabukta, central Spitsbergen. For studying wind patterns over complex topography, we chose the following sites for their differing terrain elevation and local surface characteristics: a raised marine terrace (15 m a.s.l.), the foreland of Horbyebreen Glacier (67 m a.s.l.) and the top of Mumien Peak (773 m a.s.l.). The WRF simulations were conducted using three boundary layer (BL) parameterization schemes: the Yonsei University (YSU), the Mellor-Yamada-Janjic (MYJ) and the Quasi-Normal Scale Elimination (QNSE), with 1-km horizontal resolution of the inner domain. The WRF simulations agreed fairly well with the surface wind observations taken at all the sites. For wind speed, the mean correlation coefficients between the modelled and observed data ranged from 0.56 to 0.67. The best results across all the stations were found for the QNSE parameterization scheme, with a bias of 0.1m s-1. The wind speed simulations were sensitive to the geographical location and elevation of the stations. All the parameterization schemes had difficulties in capturing the surface wind field in the narrow valley near the Horbye foreland station, while satisfactory estimates were found at the top of Mumien Peak and Terrace station, located in a wide part of the fjord. ER -
LÁSKA, Kamil, Zuzana CHLÁDOVÁ and Jiří HOŠEK. High-resolution numerical simulation of summer wind field comparing WRF boundary-layer parametrizations over complex Arctic topography: case study from central Spitsbergen. \textit{Meteorologische Zeitschrift}. STUTTGART, GERMANY: E SCHWEIZERBARTSCHE VERLAGSBUCHHANDLUNG, 2017, vol.~26, No~4, p.~391-408. ISSN~0941-2948. Available from: https://dx.doi.org/10.1127/metz/2017/0796.
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