On the Issue of Generation of Hydrodynamic Waves in the Shovi Gorge (Georgia) due to a Collapse on Glacier Tbilisa

Main Article Content

Zurab A. Kereselidze
Nodar D. Varamashvili

Abstract

The occurrence of a glacial mudflow in the Shovi gorge on August 3, 2023 was caused by a destructive process on the Tbilisa glacier. Based on the existing picture of the spread of the mudflow, it is possible to carry out an analysis regarding the rheological qualities of the water-saturated soil mass that forms its basis. It is also possible to approximately estimate the parameters of various types of hydrodynamic waves, the generation of which was probably possible during the propagation of the debris flow. It seems that such a problem can be satisfactorily solved only in the case of a correct assessment of the values of dimensionless criteria for the flow of debris flow, which are convenient quantitative characteristics that simplify the analysis of the qualitative consequences of applying the principle of hydrodynamic similarity. For example, in the case of approximating the bed of a debris flow with a rectangular channel, you can use the results of well-known analytical solutions obtained under simplifying assumptions that are valid for certain intervals of variation in the Reynolds and Froude similarity numbers. In particular, in the shallow water approximation, in the case of sufficiently large Reynolds numbers, when the fluid flow is highly turbulent, the Froude parameter allows one to fairly correctly simulate changes in the flow regime that occur as a result of the generation of hydrodynamic waves. The negative effects that often accompany the process of propagation of wave disturbances largely depend on the type of these waves. Therefore, in the case of a mudflow in the Shovi gorge, it seems quite realistic, for example, the generation of the so-called rolling hydrodynamic waves, which could well have been among the probable causes that determined the catastrophic scale of the tragic event.

Keywords:
glacier, debris flow, hydrodynamic waves, Reynolds number, Froude number
Published: Dec 28, 2023

Article Details

How to Cite
Kereselidze, Z. A., & Varamashvili, N. D. (2023). On the Issue of Generation of Hydrodynamic Waves in the Shovi Gorge (Georgia) due to a Collapse on Glacier Tbilisa. Journals of Georgian Geophysical Society, 26(2). https://doi.org/10.60131/ggs.2.2023.7438
Section
Articles

References

Lyubimov D.V., Perminov A.V. Stability of Stationary Motion of a Layer of Non-Newtonian Fluid. Izv. RAS. Mechanics of liquid and gas, No. 6, 2012, pp. 15-23, (in Russian).

Petrovsky S.V. Exact solutions of the Burgers equation with a source. Journal of Technical Physics, v. 69, issue 8, 1999, pp. 10-13, (in Russian).

Egizarova T.G., Afanasyeva M.V. Regularized Shallow Water Equations. VMU. Series 3, Physics. Astronomy, No. 1, 2010, pp. 10-13, (in Russian)

Lyapidevsky V.Yu., Teshukov V.M. Mathematical Models of the Propagation of Long Waves in an Inhomogeneous Liquid. Novosibirsk, Publishing House SB RAS, 2000, 420 p., (in Russian)

Dressler R. F. Mathematical Solution of the Problem of Roll Waves in Inclined Open Channels. Comm. Pure Appl. Math., v. 2, 1949, p. 14.

Petrakov D.A., Drobyshev D.N., Aleinikov A.A., Aristov K.A., Tutubalina O.V., Chernomorets S.S. Changes in the Zone of the Genaldon Glacial Catastrophe in the Period 2002-2010. Cryosphere of the Earth, v. 17, No. 1, 2013, pp. 35-46, (in Russian)