The Acoustic Nature of “Storm Nose”, “Supercell” Vortices and Tornadoes

Valeriy I. Pinakov
1. Design and Technology Division of Lavrentiev Institute of Hydrodynamics of the Siberian Branch of the Russian Academy of Sciences Novosibirsk, Russian Federation
vip@sibexplo.com
The material was received by the Editorial Board: 15.03.2021
Abstract
The process of cumulonimbus cloud Cb calvus formation in the middle latitudes of real atmosphere is analyzed in this work. Its transformation from initial lifecycle stage to “maturity” undergoes due to the formation of the waveguide called “aerial acoustic channel” in the troposphere near the level of temperature minimum that is close to 2 km altitude. This “aerial acoustic channel” can be considered as analog of “deep sound channel” that corresponds to the minimal sound speed level. Tropospheric “channel” related to the thermal inversion zone is almost unlimited horizontally. Synchronous generation of two compression waves (ascending one above Cb and descending one inside Cb) is caused by Cb calvus dome ascension. The first one can provoke the aerodynamic draft previously unexplained. The second one results in the growth of its “storm nose” and in the axial and peripheral descending mechanisms in Cb. The penetration of Cb into stratosphere results in the destruction of dynamic balance around Cb top and hence in its unloading in the descending decompression wave. Here the air cools down to the “dew point” in the place of conjugation with parental cloud – due to Snellius law it results in the formation of aerosol “vortex” as condensation front; this “vortex” has calculated value of its generatrix against vertical. Due to D. Snow’s criterion, this vortex forms either “supercell” vortex or tornado vortex.

Keywords
condensation front, Snellius law, mesocyclone, subcritical slip angle, wave pressure, phase velocity
УДК 534.25:551.515.3

The Acoustic Nature of “Storm Nose”, “Supercell” Vortices  and Tornadoes
References: Pinakov V. I. The Acoustic Nature of “Storm Nose”, “Supercell” Vortices and Tornadoes. Siberian Journal of Physics. 2021, vol. 16, no. 2. P. 71–80 (in Russ.). DOI: 10.25205/2541-9447-2021-16-2-71-80