Our website uses cookies. By continuing to use this site, you agree to our use of cookies in accordance with this notice and the Terms of Use.
Submit manuscript
Home / Conferences / The XXXI International Symposium "Atmospheric and Ocean Optics. Atmospheric Physics" / International Symposium "Atmospheric and Ocean Optics. Atmospheric Physics" Volume 1
HIGH-RESOLUTION NUMERICAL INVESTIGATION OF AERODYNAMICS AND HEAT TRANSFER IN THE ATMOSPHERIC BOUNDARY LAYER
Submit manuscript
To cite
HIGH-RESOLUTION NUMERICAL INVESTIGATION OF AERODYNAMICS AND HEAT TRANSFER IN THE ATMOSPHERIC BOUNDARY LAYER
Svarovskiy Artem Igorevich 1
Starchenko Aleksandr Vasil'evich 2
Authors:
1.  Tomskiy gosudarstvennyy universitet
2.  Tomskiy gosudarstvennyy universitet
Type:
Сonference article
DOI:
https://doi.org/10.56820/conferencearticle_685be465c67735.15594131
EDN:
https://elibrary.ru/ledvbn
Published:
26.06.2025
Subject area:
VAK Russia 1.6.18
UDC 551.524.1
CSCSTI 37.21
Russian Classification of Professions by Education 05.02.03
Russian Library and Bibliographic Classification 260
Russian Trade and Bibliographic Classification 6326
BISAK SCI042000 Earth Sciences / Meteorology & Climatology
Language:
Russian
Keywords:
numerical modeling, turbulent boundary layer, WRF model
Funding:
Rabota vypolnena pri podderzhke Ministerstva nauki i vysshego obrazovaniya RF (soglashenie № 075-02-2025-1728/2).
Abstract and keywords
Abstract (English):
The results of numerical vortex resolution modeling of a turbulent boundary layer with high resolution (~100 m) for Tomsk conditions obtained using the Weather Research & Forecasting model are presented. The calculation results are compared with observations from the meteorological stations of the Institute of Optics and Atmosphere of the SB RAS. Preliminary results indicate the need for further studies of the surface turbulent structure.

Keywords:
numerical modeling, turbulent boundary layer, WRF model
References

1. Skamarock, W., Klemp, J., Dudhia, J., Gill, D. O., Liu, Z., Berner, J., Wang, W., Powers, J. G., Duda, M. G., Barker, D., & Huang, X.-Y. A Description of the Advanced Research WRF Model Version 4.1. 2019. https://doi.org/10.5065/1dfh-6p97.

2. The WRF explorer. High-resolution topography based on SRTM data [Elektronnyy resurs]. URL: https://wrfexplorer.wordpress.com/2015/03/24/high-resolution-topography/ (data obrascheniya 16.02.2025).

3. Mapscaping. Global Elevation Data Download Tool [Elektronnyy resurs]. URL: https://mapscaping.com/global-elevation-data-download-tool/ (data obrascheniya 28.02.2025).

4. The Centre for Environmental Data Analysis Archive. Earth Observation Data [Elektronnyy resurs]. URL: https://data.ceda.ac.uk/neodc/esacci/high_resolution_land_cover/data/land_cover_maps/A03_Siberia/static/v1.2/geotiff/HRLC10/tiles/2019 (data obrascheniya 10.03.2025).

5. convert_geotiff. A commandline utility for converting GeoTIFF files for use in WRF [Elektronnyy resurs]. URL: https://github.com/jbeezley/convert_geotiff (data obrascheniya 17.03.2025).

6. The Open Source Geospatial Foundation. GDAL documentation [Elektronnyy resurs]. URL: http://www.gdal.org (data obrascheniya 22.03.2025).

7. QGIS Web Site. QGIS [Elektronnyy resurs]. URL: https://qgis.org/ (data obrascheniya 28.03.2025)

8. Starchenko A.V., Kizhner L.I., Svarovsky A.I., Prokhanov S.A. Sensitivity analysis of the physical parameterizations in the WRF model on the prediction accuracy of meteorological parameters // Proc. SPIE 11916, 27th International Symposium on Atmospheric and Ocean Optics, Atmospheric Physics, 119166C (15 December 2021); https://doi.org/10.1117/12.2603387

9. Zhang X., Bao J.W., Chen B., Grell E.D. A three-dimensional scale-adaptive turbulent kinetic energy scheme in the WRF-ARW model // Mon. Wea. Rev., 2018, 146, 2023–2045, https://doi.org/10.1175/MWR-D-17-0356.1

© iao.editorum.ru
Agreement Personal data protection and processing policy Support Powered by Editorum,  Instructions
Login or Create
* Forgot password?