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TVT, 2016, Volume 54, Issue 3, Pages 430–452 (Mi tvt9327)  

This article is cited in 10 scientific papers (total in 10 papers)

Reviews

Concentrated air and fire vortices: Physical modeling (a review)

A. Yu. Varaksinab

a Bauman Moscow State Technical University
b Joint Institute for High Temperatures, Russian Academy of Sciences, Moscow

Abstract: The experimental works devoted to studying the generation and dynamics of concentrated air and fire vortices are reviewed. The main characteristics of stationary and nonstationary vortices, as well as free and confined air and fire vortices, are considered.

Funding Agency Grant Number
Russian Science Foundation 14-19-00453
This work was supported by the Russian Science Foundation (agreement 14-19-00453).


DOI: https://doi.org/10.7868/S0040364416030224

Full text: PDF file (12145 kB)
References: PDF file   HTML file

English version:
High Temperature, 2016, 54:3, 409–427

Bibliographic databases:

UDC: 532.529
Received: 13.10.2015
Accepted:23.12.2015

Citation: A. Yu. Varaksin, “Concentrated air and fire vortices: Physical modeling (a review)”, TVT, 54:3 (2016), 430–452; High Temperature, 54:3 (2016), 409–427

Citation in format AMSBIB
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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. Yu. Varaksin, “Air tornado-like vortices: Mathematical modeling”, High Temperature, 55:2 (2017), 286–309  mathnet  crossref  crossref  isi  elib
    2. High Temperature, 55:5 (2017), 678–684  mathnet  crossref  isi  elib
    3. V. T. Karpukhin, M. M. Malikov, M. V. Protasov, T. I. Borodina, G. E. Val'yano, O. A. Gololobova, “Composition, morphology characteristics and optical properties of molybdenum oxide nanostructures synthesized by the laser ablation method in liquid”, High Temperature, 55:6 (2017), 870–872  mathnet  crossref  crossref  isi  elib
    4. P. B. Dermer, A. Y. Varaksin, A. I. Leontiev, “The wall-free non-stationary fire whirls generation by axisymmetric burning of solid fuel pellets”, Int. J. Heat Mass Transf., 110 (2017), 890–897  crossref  isi  scopus
    5. V. T. Karpukhin, M. A. Kazaryan, M. V. Protasov, M. M. Malikov, T. I. Borodina, G. E. Valyano, O. A. Gololobova, “Some physical properties of zirconium and molybdenum oxide nanostructures produced by metal laser ablation in water”, Bull. Lebedev Phys. Inst., 44:6 (2017), 168–172  crossref  isi  scopus
    6. P. Wang, N. Liu, Yu. Bai, L. Zhang, K. Satoh, X. Liu, “An experimental study on thermal radiation of fire whirl”, Int. J. Wildland Fire, 26:8 (2017), 693–705  crossref  isi  scopus
    7. A. Yu. Varaksin, “Gas-solid flows past bodies”, High Temperature, 56:2 (2018), 275–295  mathnet  crossref  crossref  isi  elib  elib
    8. A. S. Lobasov, S. S. Abdurakipov, L. M. Chikishev, V. M. Dulin, D. M. Markovich, “HCHO PLIF investigation of the flame shape in an unsteady swirling jet flow”, Combust. Explos., 54:6 (2018), 642–648  crossref  isi  scopus
    9. V. M. Batenin, V. T. Karpukhin, M. M. Malikov, V. Ya. Mendeleev, M. A. Kazaryan, R. A. Zakharyan, N. A. Lyabin, “Features of copper vapor laser emission excited by pulse-periodic hf discharge”, Bull. Lebedev Phys. Inst., 45:6 (2018), 170–175  crossref  isi  scopus
    10. Yu. K. Kurilenkov, S. Yu. Gus'kov, V. T. Karpukhin, A. V. Oginov, I. S. Samoylov, “On nuclear DD synthesis at the initial stage of nanosecond vacuum discharge with deuterium-loaded Pd anode”, XXXII International Conference on Interaction of Intense Energy Fluxes With Matter (Elbrus 2017), Journal of Physics Conference Series, 946, IOP Publishing Ltd, 2018, UNSP 012025  crossref  isi  scopus
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