ISSN 2658–5782
DOI 10.21662
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Formatting of an article for the journal ”Multiphase Systems“: a guide for the author. Multiphase Systems. 16 (2021) 1. 1–7 (in Russian).
2021. Vol. 16. Issue 1, Pp. 1–7
URL: http://mfs.uimech.org/mfs2021.1.001,en
DOI: 10.21662/mfs2021.1.001
Formatting of an article for the journal ”Multiphase Systems“: a guide for the author
Galimzyanov M.N.*, Mikhaylenko C.I.∗,**, Nalobina E.A.*
*Mavlyutov Institute of MEchanics of UFRC RAS, Ufa, Russia
**Ufa State Aviation Technical University, Ufa, Russia

Abstract

Abstract is formatted in the header of the source file as a parameter to the \abstract{} command.

The abstract is intended to give a detailed description of the article, which makes it possible to judge the content used research approaches and results obtained. The volume of the abstract is 200–250 words (in the final file they are 18 to 22 lines long).

Abstract can contain mathematical symbols (Greek letters, accents, degree symbol, etc.), but should not include equations. An exception is made for equalities determining important values, that is mathematical expressions of the form α = 123.

The abstract should not contain tables, images, references to literature and other cross-references.

This article provides a quick guide to using the mfs.cls class, which defines registration of an article in the journal ”Multiphase Systems“. The description is given in such a way that it can be used as a template for preparing your article.

The editors of the journal ”Multiphase Systems“ and the authors of this article ask you to carefully follow the presentation the description, paying particular attention to those paragraphs that are in bold.

Keywords

preparation of an article,
design,
features,
up to 7 phrases

References

  1. Lojcyanskij L.G. [Liquid and gase mechanics] Mexanika zhidkosti i gaza. M.: Drofa, 2003. P. 840 (in Russian)
  2. Galimzyanov M.N., Shagapov V.Sh. Analytical studies of suspension acoustics. Multiphase Systems. 14 (2019) 1. 27–35 (in Russian).
    DOI: 10.21662/mfs2019.1.004
  3. Shagapov V.Sh., Khasanov M.K., Musakaev N.G. Formation of a gas hydrate due to injection of a cold gas into a porous reservoir partly saturated by water. Journal of Applied Mechanics and Technical Physics. 2008. V. 49, No. 3. Pp. 462–472.
    DOI: 10.1016/j.ijheatmasstransfer. 2015.01.105
  4. Bolotnova R.K., Korobchinskaya V.A. Boiling water jet outflow from a thin nozzle: spatial modeling. Thermophysics and Aeromechanics. 2017. V. 24, No. 5. Pp. 761–771.
    http://www.sibran.ru/journals/issue.php?ID=171733&ARTICLE_ID=171744
  5. Khabirov S.V. Simple partially invariant solutions // Ufa Mathematical Journal. 2019. V. 11, No. 1. Pp. 90–99.
    DOI: 10.13108/2019-11-1-90
  6. Mikhaylenko C.I., Kuleshov V.S. [Simulation of inhomogeneity of gas flow interacting with a fixed bed of granular medium] All-Russian Congress on the fundamental problems of theoretical and applied mechanics: the collection of reports [Vserossijskij c"ezd po fundamental’nym problemam teoreticheskoj i prikladnoj mexaniki: sbornik dokladov]. Kazan: Publ. Kazan University. 2015. Pp. 2580–2582 (in Russian)
    eLIBRARY ID: 24824847
  7. Marin D.F. [Methods of accelerating the calculations of mathematical models of molecular dynamics on hybrid computing systems] Metody uskoreniya raschetov molekulyarnoj dinamiki na gibridnyx vychislitel’nyx sistemax. Ph.D. Thes. Ufa, 2015. P. 16 (in Russian)
  8. Bruus H. Theoretical microfluidics. Lecture notes third edition. MIC Department of Micro and Nanotechnology Technical University of Denmark. 2006.
    URL: http://homes.nano.aau.dk/lg/Lab-on-Chip2008_files/HenrikBruus_Microfluidics%20lectures.pdf (Accessed: 10.04.2018).