Your search keyword '"Pandithurai, Govindan"' showing total 2 results

1. Characterization of rain microphysics on the leeside of the Western Ghats.

Author

Krishna, U. V. Murali, Das, Subrata Kumar, Kolte, Yogesh, Jha, Abhishek, Konwar, Mahen, Deshpande, Sachin, and Pandithurai, Govindan

Subjects

RAINDROP size, MICROPHYSICS, STORMS, PRINCIPAL components analysis, RAINDROPS, RAINFALL

Abstract

This study evaluates the performance of four impact-type disdrometers installed at the Indian Institute of Tropical Meteorology, Pune, located on the leeside of the Western Ghats (WG). Further, seasonal variation of rain microphysical properties is studied during premonsoon (March-May), monsoon (June-September), postmonsoon (October-November), and winter (December-February). The four disdrometers exhibit comparable raindrop size distribution (DSD) patterns, though negligible differences are found at smaller drop diameters. The DSD shows higher concentrations of smaller (large-size) drops during monsoon (pre-monsoon and postmonsoon). Principal component analysis revealed three distinct modes of DSD characteristics. Monsoon DSDs are associated with a group of numerous smaller drops allied with shallow storm heights (warm rain). The premonsoon and postmonsoon DSDs are clustered in a group where ice-based processes dominate, resulting in higher median drop diameters (D0) and smaller normalized intercept parameters (Nw). The fitted gamma DSD model indicates higher mass-weighted mean diameter (Dm) during premonsoon, and higher intercept parameter during monsoon, whereas postmonsoon and winter have intermediate values. DSD stratified with rain rate shows that the Dm values increase with an increase in rain rate during winter, monsoon and postmon-soon, whereas in premonsoon, Dm increases initially and then decreases. Higher Dm and lower Nw are observed during convective rain in all seasons. The fitted slope-shape parameter relationships show a considerable seasonal variation. The DSD on the WG's leeside is notably different from the windward slopes and other WG locations. Different microphysical and dynamical mechanisms lead to seasonal differences in DSD characteristics. In monsoon, a considerable volume of water vapour advected from the Arabian Sea promotes the formation of raindrops through collision-coalescence processes, which may result in a higher proportion of smaller and midsized raindrops. The deeper clouds during pre-monsoon and postmonsoon indicate mixed-phase processes, which lead to mid and large-sized raindrops. [ABSTRACT FROM AUTHOR]

Published

2023

2. Unraveling of cloud types during phases of monsoon intra‐seasonal oscillations by a Ka‐band Doppler weather radar.

Author

Chakravarty, Kaustav, Pokhrel, Samir, Kalshetti, Mahesh, Nair, Anish Kumar Muralidharan, Kalapureddy, Madhu Chandra R., Deshpande, Sachin M., Das, Subrata Kumar, Pandithurai, Govindan, and Goswami, Bhupendra Nath

Subjects

CLOUD classification, MONSOONS, OSCILLATIONS, DOPPLER radar, MICROPHYSICS

Abstract

Ground‐based cloud radar has been used for the first time in the Indian subcontinent to explore the cloud population during the break, transition and active phases of monsoon intra‐seasonal oscillation over a region in the Western Ghats mountain. The synergetic use of in situ measurements along with the supporting large‐scale microphysical features from the reanalysis data has been utilized in order to have a closer look of the morphology of clouds along with its transition during the intra‐seasonal phases. It has been observed that the active phase is dominated by deep clouds (~41%) along with some shallow (~28%) and congestus clouds (~29%) while the break phases are dominated by the shallow clouds (~72%) during precipitating and high‐level cirrus clouds (~65.22%) during the non‐precipitating times. The role of middle level moisture for modulating the nature of the clouds along with its role in determining the latent heating profile over the same region has also been presented. [ABSTRACT FROM AUTHOR]

Published

2018