INFLUENCE OF THE SOLAR RADIATION FLUX RETURNED FROM THE EARTH'S SURFACE ON THE RADIATION FIELD IN THE ATMOSPHERE

Article Sidebar

PDF (O'zbekcha)
Published: sen 12, 2024
Keywords:
Solar spectrum, atmosphere, optical thickness, scattering, X,Y-functions, surface albedo.

Main Article Content

Mahmud Sobirov
Fergana State University
https://orcid.org/0000-0002-6447-0728
Valijon Ro‘ziboyev
Fergana State University
https://orcid.org/0000-0002-6199-1165

Abstract

In the article, the impact of the solar radiation flux returned from the Earth's surface on the radiation field in the atmosphere was studied using theoretical calculations. It is considered that the intensity of the luminous flux returned from the earth's surface is distributed according to Lambert's law, and the method of calculating the amount of this flux was developed based on the theory of S-matrices. The influence of the Earth's surface return coefficient on diffuse and unscattered fluxes from the atmosphere to space and the Earth's surface was calculated. Calculations were carried out taking into account the full spectrum of the solar radiation flux.

Article Details

How to Cite
Sobirov , M., & Ro‘ziboyev , V. (2024). INFLUENCE OF THE SOLAR RADIATION FLUX RETURNED FROM THE EARTH’S SURFACE ON THE RADIATION FIELD IN THE ATMOSPHERE. Scientific Journal of the Fergana State University, 30(3), 341. Retrieved from https://journal.fdu.uz/index.php/sjfsu/article/view/4510
Issue
No. 3 (2024): FarDU.Ilmiy xabarlar jurnali. Ilova to'plam (Aniq va tabiiy fanlar)
Section
Physics and technology
Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

Author Biographies

Mahmud Sobirov , Fergana State University

Farg‘ona davlat universiteti, fizika-matematika fanlari nomzodi, dosent

Valijon Ro‘ziboyev , Fergana State University

Farg‘ona davlat universiteti, fizika kafedrasi tayanch doktoranti

References

Sobirov, M. M., Rozikov, J. Yu., & Ruziboyev, V. U. (2023). Studies of the angular distribution of the degree of polarization of diffusely reflected and transmitted natural solar radiation through the layers of the atmosphere. Uzbek Journal of Physics, 25(3), 49-59. https://doi.org/10.52304/.v25i3.452

Sobirov, M., Roziqov, J., Roziboyev, V., & Yusupova, D. (2023). Calculation of spectral and angular distribution of diffusely reflected, transmitted, and non-scattered fluxes of solar radiation in atmospheric layers. Applied Solar Energy, 59(5), 761-769.

Sobirov, M. M., Rozikov, J. Yu., Yusupova, D. A., & Ruziboyev, V. U. (2023). Расчет спектрального и углового распределения диффузно отраженного, диффузно прошедшего и нерассеянного потоков солнечного излучения в слоях атмосферы. Гелиотехника, (5), 945-957.

S. Chandrasekhar, Radiative transfer. Dover Publications Inc, New York. 1953 (2003).

Yu.M. Timofeev, A.V.Vasilyev. Teoreticheskiye osnovi atmosfernoy optiki. Sankt–Peterburg, Nauka, 2003.

Petrov Yu.V., Egamberdiyeva X.T., Xolmatjonov B.M., Alautdinov M. Atmosfera fizikasi (Atmospheric physics), Tashkent, Fan va texnologiya, 2011.

Мирзарахимов М.А., Сирожиддинов А.А., Назирқулов Ж.Д. “РЕАЛ ВАҚТ РЕЖИМИДА ТИЗИМДАН МАЛАКАЛИ КАДРЛАРНИ ТАНЛАБ ОЛИШ АЛГОРИТМИНИ НОРАВШАН МАНТИҚ АСОСИДА ТАДҚИҚ ЭТИШ” - Scientific journal of the Fergana State University, 2021

Nazirkulov Jamaldin, Bohodirov Daniyor O'tkirbekovich. PROSPECTS OF APPLYING DATA SCIENCE TO EDUCATION IN THE CONDITIONS OF UZBEKISTAN. Western European Journal of Linguistics and Education 2 (6). 2024. 238-241

https://scholar.google.com/citations?view_op=view_citation&hl=ru&user=F9l5PmwAAAAJ&citation_for_view=F9l5PmwAAAAJ:qjMakFHDy7sC

Mirzaraximov M.A., Sirojiddinov A.A., Nazirqulov J.D. Study of the algorithm of selection of qualified personnel from the system in real time on the basis of fuzzy logic. Scientific journal of the Fergana State University, 2021(1). Fergana, Publ: Fergana State University, 2021.

https://scholar.google.com/citations?view_op=view_citation&hl=ru&user=F9l5PmwAAAAJ&citation_for_view=F9l5PmwAAAAJ:d1gkVwhDpl0C