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Autori principali: Olabintan, A. H., Lawan, E., Oluwadare, T. A
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2503.00026
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author Olabintan, A. H.
Lawan, E.
Oluwadare, T. A
author_facet Olabintan, A. H.
Lawan, E.
Oluwadare, T. A
contents Earth's net radiation, sometimes referred to as net flux, is the balance between incoming and outgoing solar radiation energy from the atmosphere. This study utilised five years of data on tropospheric variables (solar radiation, air temperature, surface temperature, maximum temperature, minimum temperature, and dew point temperature), from January 2007 to December 2011 to estimate net radiation and examine its temporal (diurnal) and daily variation. The measurement site is the old site of the Nigerian Television Authority, NTA Akure at Iju (7.15oN, 5.12oE), in Akure North Local Government area of Ondo State. The results indicate that the net radiation exhibits a radiant energy surplus during the daytime and a deficit at nighttime. The daily mean maximum of the hourly net radiation flux was about 550 Wm-2 for the dry season. The value occurred around 12:00 hrs and 380 Wm-2 for the wet season, the value occurring around 12:30 hrs. We observed a time lag between net radiation and temperature; the net radiative flux reached its maximum at 12:00 hrs while the temperature attained its peak value around 15:00 hrs. Daily averages of net radiation exhibited dual peaks with values of about 160 Wm-2day-1 around February and November and a minimum of about 50 Wm-2day-1. The daily average temperature has a singular peak in February, the hottest month. We also analysed daily net radiation values from 10 models that differ in structure and complexity, and a lot of them underestimated the standard model because they were location-dependent.
format Preprint
id arxiv_https___arxiv_org_abs_2503_00026
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Estimating All-Net Radiation using routine Meteorological data in Akure, Nigeria
Olabintan, A. H.
Lawan, E.
Oluwadare, T. A
Atmospheric and Oceanic Physics
Earth's net radiation, sometimes referred to as net flux, is the balance between incoming and outgoing solar radiation energy from the atmosphere. This study utilised five years of data on tropospheric variables (solar radiation, air temperature, surface temperature, maximum temperature, minimum temperature, and dew point temperature), from January 2007 to December 2011 to estimate net radiation and examine its temporal (diurnal) and daily variation. The measurement site is the old site of the Nigerian Television Authority, NTA Akure at Iju (7.15oN, 5.12oE), in Akure North Local Government area of Ondo State. The results indicate that the net radiation exhibits a radiant energy surplus during the daytime and a deficit at nighttime. The daily mean maximum of the hourly net radiation flux was about 550 Wm-2 for the dry season. The value occurred around 12:00 hrs and 380 Wm-2 for the wet season, the value occurring around 12:30 hrs. We observed a time lag between net radiation and temperature; the net radiative flux reached its maximum at 12:00 hrs while the temperature attained its peak value around 15:00 hrs. Daily averages of net radiation exhibited dual peaks with values of about 160 Wm-2day-1 around February and November and a minimum of about 50 Wm-2day-1. The daily average temperature has a singular peak in February, the hottest month. We also analysed daily net radiation values from 10 models that differ in structure and complexity, and a lot of them underestimated the standard model because they were location-dependent.
title Estimating All-Net Radiation using routine Meteorological data in Akure, Nigeria
topic Atmospheric and Oceanic Physics
url https://arxiv.org/abs/2503.00026