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Mathematical Physics and Computer Simulation, 2022, Volume 25, Issue 3, Pages 31–57
DOI: https://doi.org/10.15688/mpcm.jvolsu.2022.3.3
(Mi vvgum334)
 

This article is cited in 7 scientific papers (total in 7 papers)

Modeling, informatics and management

Numerical modeling of self-consistent dynamics of shallow waters, traction and suspended sediments: I. Influence of commercial sand mining on the safety of navigation in the channel of the Volga River

S. S. Khrapova, E. O. Agafonnikovaa, A. Yu. Klikunovaa, V. P. Radchenkoa, E. V. Baskakova, E. S. Savina, I. S. Makoveeva, N. S. Khrapovb

a Volgograd State University
b Municipal educational institution “Lyceum No. 11 of Voroshilovsky district of Volgograd”
Abstract: A mathematical model of the joint dynamics of shallow waters, entrained and suspended sediments is constructed, which takes into account nonlinear fluid dynamics and bottom deformations. The dynamics of shallow waters is described by the Saint-Venant equations taking into account the spatially inhomogeneous distribution of the terrain. The transport of entrained sediments is described by the Exner equation generalized to the case of an inhomogeneous distribution of the parameters of the underlying surface. The dynamics of suspended sediments is described by the transport equation, which includes convective transport by water flow and the process of diffusion of the suspension in the liquid layer. For numerical integration of the Saint-Venant, Exner equations and suspended sediment dynamics, a stable and well-tested CSPH-TVD method of the second order of accuracy is used, the parallel CUDA algorithm of which is implemented in the form of a software package «EcoGIS-Simulation» for highperformance computing on supercomputers with graphics coprocessors (GPU). The conditions for the development of a quarry of non-metallic building materials (NSM) located at the mouth of the Partridge Volozhka of the Volga-Akhtuba floodplain on the 2549–2550 km section of the Volga River are considered. To study the safety of navigation from the lower reaches of the Volga hydroelectric dam to the entrance to the VDSK, numerical hydrodynamic modeling of the dynamics of channel processes in this section of the Volga River was carried out. Based on the results of mathematical modeling of the joint dynamics of surface waters, entrained and suspended sediments in the riverbed of the Volga River, it is concluded that the development of the NSM quarry considered in the work does not significantly affect the safety of navigation both along the main ship course “The lower reaches of the Volga hydroelectric dam — VDSK” and on additional — “Volgograd zaton” and “Volozhka Partridge”.
Keywords: hydrodynamics of surface waters, shallow water model, entrained and suspended sediments, numerical modeling, CSPH-TVD method, parallel computing, CUDA algorithm, supercomputers with GPU.
Received: 28.06.2022
Accepted: 30.08.2022
Bibliographic databases:
Document Type: Article
UDC: 519.63, 532.5
BBC: 26.222
Language: Russian
Citation: S. S. Khrapov, E. O. Agafonnikova, A. Yu. Klikunova, V. P. Radchenko, E. V. Baskakov, E. S. Savin, I. S. Makoveev, N. S. Khrapov, “Numerical modeling of self-consistent dynamics of shallow waters, traction and suspended sediments: I. Influence of commercial sand mining on the safety of navigation in the channel of the Volga River”, Mathematical Physics and Computer Simulation, 25:3 (2022), 31–57
Citation in format AMSBIB
\Bibitem{KhrAgaKli22}
\by S.~S.~Khrapov, E.~O.~Agafonnikova, A.~Yu.~Klikunova, V.~P.~Radchenko, E.~V.~Baskakov, E.~S.~Savin, I.~S.~Makoveev, N.~S.~Khrapov
\paper Numerical modeling of self-consistent dynamics of shallow waters, traction and suspended sediments: I. Influence of commercial sand mining on the safety of navigation in the channel of the Volga River
\jour Mathematical Physics and Computer Simulation
\yr 2022
\vol 25
\issue 3
\pages 31--57
\mathnet{http://mi.mathnet.ru/vvgum334}
\crossref{https://doi.org/10.15688/mpcm.jvolsu.2022.3.3}
\mathscinet{http://mathscinet.ams.org/mathscinet-getitem?mr=4529128}
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  • This publication is cited in the following 7 articles:
    Citing articles in Google Scholar: Russian citations, English citations
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