A study of extreme rainfall events and urban flooding over Hyderabad, October 2020

Authors

  • GAURAVENDRA P. SINGH India Meteorological Department, Pune – 411 005, India
  • MEDHA KHOLE India Meteorological Department, Pune – 411 005, India
  • ARCHANA SHINDE India Meteorological Department, Pune – 411 005, India
  • SUNITA BHANDARI India Meteorological Department, Pune – 411 005, India

DOI:

https://doi.org/10.54302/mausam.v75i2.6047

Keywords:

Mesoscale convective complexes, Urban floods, Depression, Thunderstorm

Abstract

The present study analyses and describes the evolution of the Mesoscale Convective Complex (MCC) and its atmospheric conditions during Extreme rainfall event in Hyderabad, on 13th October 2020. This extreme weather event was a mesoscale event embedded in a synoptic-scale system. During the second week of October 2020, a depression formed over the west-central Bay of Bengal (BoB) and travelled north-westwards through peninsular India, causing heavy rains in Andhra Pradesh and Telangana states of India on October 13-14. On October 13, many parts of Hyderabad and Cyberabad received more than 300 mm of rain within 24 hrs. Satellite imagery suggests that this mesoscale system constituted a unique set of structured convection those reported in MCC. This MCC has a cloud shield with a continuous low IR temperature of less than - 33 °C over an area of more than 100000 km2 and a cloud shield with a continuous low IR temperature of less than -54 °C over an area of more than 50000 km2 over Hyderabad with a life cycle of about 9 hours. This MCC featured multi cellular characteristics, showing that there was significant low-level moisture in its environment, as well as a mix of vigorous updrafts, implying significant rainfall rates over Hyderabad. The synoptic features suggest that with high precipitable water, the long axis of low-level moisture convergence at 0850 hPa and large horizontal vorticity at 0925 hPa were oriented parallel to the system's mean wind flow. In this case, a clusters of thunderstorms arose in the area of moisture convergence which prolonged the duration of extremely heavy rainfall. The high rain rate, relatively sluggish storm motion, and prolonged back-building over the same locations for several hours are likely to blame for the heavy rainfall accumulations that were observed. The hydrological conditions compounded the effects of the torrential rain, resulting in a natural hazard.

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Published

01-04-2024

How to Cite

[1]
G. P. . SINGH, M. . KHOLE, A. SHINDE, and S. BHANDARI, “A study of extreme rainfall events and urban flooding over Hyderabad, October 2020”, MAUSAM, vol. 75, no. 2, pp. 443–460, Apr. 2024.

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Section

Research Papers