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Matem. Mod., 2017, Volume 29, Number 3, Pages 123–138 (Mi mm3831)  

This article is cited in 5 scientific papers (total in 5 papers)

Numerical simulation of a jet impact on a wall

A. A. Aganin, T. S. Guseva

Institute of Mechanics and Engineering, Kazan Science Center, Russian Academy of Sciences

Abstract: A technique of computing high-speed liquid jet impact on a wetted wall has been realized. During such impact shock waves arise in the jet, in the liquid layer on the wall and in the gas surrounding the liquid, the interphase boundary strongly deforms. The technique is based on the CIP-CUP method along with the dynamically adaptive soroban-grids. The gas dynamics equations describing the liquid and gas flow are integrated without explicit separation of the liquidgas boundary. Such an approach is shown to be efficient for the problems considered. It allows one to obtain the solution without oscillations in the vicinity of the contact boundaries, including their interaction with the shock waves. For the purposes of illustration, results of computing a number of one- and two-dimensional problems with the features characteristic of the high-speed liquid jet impact on a wall as well as their comparison with the known analytic and numerical solutions are presented and also some results of computation of the problem of the high-speed liquid jet impact on a wall covered by a thin liquid layer are given.

Keywords: shock waves, contact boundary, CIP-CUP method, adaptive soroban-grids.

Funding Agency Grant Number
Russian Foundation for Basic Research 16-01-00433_а


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English version:
Mathematical Models and Computer Simulations, 2017, 9:5, 623–635

Received: 25.01.2016

Citation: A. A. Aganin, T. S. Guseva, “Numerical simulation of a jet impact on a wall”, Matem. Mod., 29:3 (2017), 123–138; Math. Models Comput. Simul., 9:5 (2017), 623–635

Citation in format AMSBIB
\Bibitem{AgaGus17}
\by A.~A.~Aganin, T.~S.~Guseva
\paper Numerical simulation of a jet impact on a wall
\jour Matem. Mod.
\yr 2017
\vol 29
\issue 3
\pages 123--138
\mathnet{http://mi.mathnet.ru/mm3831}
\elib{http://elibrary.ru/item.asp?id=28922653}
\transl
\jour Math. Models Comput. Simul.
\yr 2017
\vol 9
\issue 5
\pages 623--635
\crossref{https://doi.org/10.1134/S2070048217050027}
\scopus{http://www.scopus.com/record/display.url?origin=inward&eid=2-s2.0-85029763825}


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    Citing articles on Google Scholar: Russian citations, English citations
    Related articles on Google Scholar: Russian articles, English articles

    This publication is cited in the following articles:
    1. A. A. Aganin, T. S. Guseva, “Vliyanie formy kontsa strui pri ee udare po poverkhnosti zhidkosti”, Uchen. zap. Kazan. un-ta. Ser. Fiz.-matem. nauki, 159, no. 2, Izd-vo Kazanskogo un-ta, Kazan, 2017, 135–142  mathnet  elib
    2. J. Schwartzentruber, J. K. Spelt, M. Papini, “Modelling of delamination due to hydraulic shock when piercing anisotropic carbon-fiber laminates using an abrasive waterjet”, Int. J. Mach. Tools Manuf., 132 (2018), 81–95  crossref  isi  scopus
    3. Guseva T.S. Malakhov V.G., “Effect of Liquid Compressibility At a Jet Impact on a Wall”, Lobachevskii J. Math., 40:6, SI (2019), 757–762  crossref  isi
    4. A. A. Aganin, T. S. Guseva, “Vliyanie formy kontsa strui zhidkosti na ee udar po sukhoi stenke”, Uchen. zap. Kazan. un-ta. Ser. Fiz.-matem. nauki, 161, no. 1, Izd-vo Kazanskogo un-ta, Kazan, 2019, 39–52  mathnet  crossref  elib
    5. A. A. Aganin, T. S. Guseva, L. A. Kosolapova, N. A. Khismatullina, “Zavisimost vozdeistviya kavitatsionnogo puzyrka na telo ot davleniya zhidkosti”, Uchen. zap. Kazan. un-ta. Ser. Fiz.-matem. nauki, 161, no. 2, Izd-vo Kazanskogo un-ta, Kazan, 2019, 165–180  mathnet  crossref  elib
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