High temporal variability of surface solar irradiance due to cloud enhancement effect over the Western Ghat mountains in peninsular India

Western Ghat (WG) mountains along the west coast of peninsular India play an important role in the distribution of monsoon rainfall on its windward and leeward sides. The study unravels the increase in cloudiness and also increase in the Cloud Enhancement of Solar irradiance (CES) during the dry and...

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Bibliographic Details
Published in:Journal of atmospheric and solar-terrestrial physics 2022-06, Vol.232, p.105867, Article 105867
Main Authors: B, Padmakumari, Kalgutkar, Sanket, Sunil, Sneha, Nikam, Mahesh, Pandithurai, G.
Format: Article
Language:English
Subjects:
Cloud enhancement effect
Cloud radiative forcing
Renewable solar energy
Solar irradiance
Western Ghat
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Summary:Western Ghat (WG) mountains along the west coast of peninsular India play an important role in the distribution of monsoon rainfall on its windward and leeward sides. The study unravels the increase in cloudiness and also increase in the Cloud Enhancement of Solar irradiance (CES) during the dry and wet seasons in the windward (high altitude) and the leeward (low altitude) sides of WG. From May 2018 to May 2021, the global horizontal irradiance (GHI) reveals wide temporal and spatial variability with a high frequency of CES events, even exceeding the extraterrestrial value around the noontime during the wet season (May to October). The observed excess irradiance due to partial/transparent clouds compared to clear sky maxima is more than 400 W/m2 on the windward and 350 W/m2 on the leeward. With the increase in cloudy days, diffused irradiance also increased with greater values during CES events. CES induced positive shortwave cloud radiative forcing (CRF) varied up to +400 W/m2 (warming effect), while negative CRF varied up to −1000 W/m2 (cooling effect). During monsoon, the warming due to frequent CES events could locally offset a large cooling to some extent. Clouds resulting in huge irradiance variability in a day could also induce large fluctuations in renewable solar energy. Such short-term sporadic local events are averaged out in satellite data. •Cloud-induced enhanced solar irradiance is observed frequently during wet season.•Monsoon cloud enhanced maximum SW irradiance is 1565 W/m2 and 1465 W/m2 at a high and a low altitude stations, respectively.•Warming due to frequent CES events locally offsets large cooling during monsoon.•Short-term cloud-induced solar enhancement impact solar renewable energy.
ISSN:1364-6826
1879-1824
DOI:10.1016/j.jastp.2022.105867