Experimental Global Forecasts of Atmospheric Parameters Based on Experimental Technology that Takes into Account Ozone Photochemistry (FOROZ Model)

Experimental Global Forecasts of Atmospheric Parameters Based on Experimental Technology that Takes into Account Ozone Photochemistry (FOROZ Model)

— The results of numerical seasonal forecasts of temperature calculated with two interactive global numerical models, the CHARM photochemical model (0–90 km) of the Central Aerological Observatory (CAO) and the seasonal forecast model PLAV of the Hydrometeorological Centre/Institute of Numerical Mat...

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Bibliographic Details
Published in:Geomagnetism and Aeronomy Vol. 60; no. 2; pp. 243 - 253
Main Authors: Krivolutsky, A. A., V’yushkova, T. Yu, Banin, M. V., Tolstykh, M. A.
Format: Journal Article
Language:English
Published: Moscow Pleiades Publishing 01-03-2020
Springer Nature B.V
Subjects:
Atmospheric models
Earth and Environmental Science
Earth Sciences
General circulation models
Geophysics/Geodesy
Hydrometeorology
Lower troposphere
Mathematical models
Numerical models
Ozone
Ozone photochemistry
Photochemicals
Photochemistry
Seasonal forecasting
Stratosphere
Temperature distribution
Troposphere
Upper troposphere
Weather forecasting
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Summary:— The results of numerical seasonal forecasts of temperature calculated with two interactive global numerical models, the CHARM photochemical model (0–90 km) of the Central Aerological Observatory (CAO) and the seasonal forecast model PLAV of the Hydrometeorological Centre/Institute of Numerical Mathematics of the Russian Academy of Sciences (0–30 km), are presented. The wind and temperature fields above 30 km were linked with the CAO ARM general circulation model. The forecast results are compared with reanalysis data. The calculations show that the new combined model (Forecast with Ozone, FOROZ) is stable under numerical scenarios. The seasonal forecast temperature fields of the PLAV model and the combined FOROZ model with reanalysis data are close in the lower troposphere and differ in the stratosphere. The combined FOROZ model improves the temperature forecast for the upper troposphere and stratosphere.
ISSN:0016-7932
1555-645X
0016-7940
DOI:10.1134/S0016793220010089