On the movement of tropical cyclone LEHAR

Purpose In this paper, an attempt has been made to delineate the physical processes which lead to the westward movement of the North Indian Ocean tropical cyclone LEHAR. Methods The Advanced Weather Research and Forecasting (ARW) model is used to simulate LEHAR with 27 and 9 km resolutions. In addit...

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Bibliographic Details
Published in:Earth systems and environment 2017-12, Vol.1 (2), p.21, Article 21
Main Authors: Dasari, Hari Prasad, V, Brahmananda Rao, SSVS, Ramakrishna, Gunta, Paparao, N, Nanaji Rao, P, Ramesh Kumar
Format: Article
Language:English
Subjects:
Asymmetry
Climate
Climate Change/Climate Change Impacts
Convective clouds
Cyclones
Earth and Environmental Science
Earth Sciences
Earth System Sciences
Environmental Science and Engineering
Forecasting
Geography
Heat exchange
Lightning flashes
Meteorological satellites
Monitoring/Environmental Analysis
Neural networks
Original Article
Radiation
Satellite observation
Steering
Tropical cyclones
Vortices
Vorticity equations
Weather forecasting
Wind effects
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Summary:Purpose In this paper, an attempt has been made to delineate the physical processes which lead to the westward movement of the North Indian Ocean tropical cyclone LEHAR. Methods The Advanced Weather Research and Forecasting (ARW) model is used to simulate LEHAR with 27 and 9 km resolutions. In addition to that, all terms of the complete vorticity equation are computed to obtain the contribution of each term for the vorticity tendency. The vorticity tendency is calculated in four sectors, namely northwest, northeast, southwest, and southeast and assumed that the cyclone moves from its existing location to the nearest point where the vortices tendency is maximum. Results The results indicate that the model performed well in simulating the characteristics of cyclone compared with the Satellite and other observations. It is noticed that the vorticity stretching term contributes most to the positive vorticity tendency. The second highest contribution is from the horizontal advection thus indicating the secondary importance of steering. Conclusions The distribution of lightning flash rates are higher in the SW and followed by NW sectors of the cyclone indicate more strong convective clouds are in SW sector. The equivalent potential temperatures ( θ e ) at different stages of before, during and after the mature stage of the cyclone reveals that the wind-induced surface heat (WISH) exchange process is a plausible mechanism for the intensification of LEHAR.
ISSN:2509-9426
2509-9434
DOI:10.1007/s41748-017-0025-7