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TVT, 2015, Volume 53, Issue 5, Pages 735–740 (Mi tvt7878)  

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

Heat and Mass Transfer and Physical Gasdynamics

Modeling conjugate heat transfer in packets of small-size planar gas-dynamic cooled nozzles

V. F. Formalev, S. A. Kolesnik, E. L. Kuznetsova

Moscow Aviation Institute (State University of Aerospace Technologies)

Abstract: A complex physicomathematical formulation and method of solving conjugate heat transfer between viscous gas-dynamic and hydraulic flows in packets of planar cooled rocket microthrusters used for the control for spacecrafts and pumping of gas-dynamic lasers are presented. The feature of such thrusters is their small size, as a consequence of which the body rapidly warms up and needs special ways of cooling. The immersion technique is proposed for solving heat transfer problems in multiply connected domains which are inherent to cooled microthrusters. It is shown that the cooler removes a considerable amount of heat, especially in the region of the critical cross section of the nozzle.

DOI: https://doi.org/10.7868/S0040364415050117

Full text: PDF file (340 kB)
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English version:
High Temperature, 2015, 53:5, 697–702

Bibliographic databases:

UDC: 536.21, 536.244
Received: 20.01.2015

Citation: V. F. Formalev, S. A. Kolesnik, E. L. Kuznetsova, “Modeling conjugate heat transfer in packets of small-size planar gas-dynamic cooled nozzles”, TVT, 53:5 (2015), 735–740; High Temperature, 53:5 (2015), 697–702

Citation in format AMSBIB
\by V.~F.~Formalev, S.~A.~Kolesnik, E.~L.~Kuznetsova
\paper Modeling conjugate heat transfer in packets of small-size planar gas-dynamic cooled nozzles
\jour TVT
\yr 2015
\vol 53
\issue 5
\pages 735--740
\jour High Temperature
\yr 2015
\vol 53
\issue 5
\pages 697--702

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    Citing articles on Google Scholar: Russian citations, English citations
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    This publication is cited in the following articles:
    1. V. F. Formalev, S. A. Kolesnik, I. A. Selin, E. L. Kuznetsova, “Optimal way for choosing parameters of spacecraft’s screen-vacuum heat insulation”, High Temperature, 55:1 (2017), 101–106  mathnet  crossref  crossref  isi  elib
    2. A. N. Astapov, A. S. Kurbatov, L. N. Rabinskiy, A. N. Tarasova, “Mathematical modeling of the dynamics of non-equilibrium isothermal adsorption of carbon dioxide”, Period. Tche Quim., 15:1 (2018), 138–152  isi
    3. V I. Krechetov, A. A. Skvortsov, I. A. Poselsky, S. A. Paltsev, P. S. Lavrikov, V. Korotkovs, “Development of a robotic sorting node - recognition of the shape of objects”, Period. Tche Quim., 15:1 (2018), 182–197  isi
    4. L. N. Rabinskiy, V O. Tushavina, “Experimental investigation and mathematical modelling of heat protection subjected to high-temperature loading”, Period. Tche Quim., 15:1 (2018), 321–329  isi
    5. A. G. Getmanov, L. N. Rabinskiy, “Assessment of durability of coatings in difficult stress conditions”, Period. Tche Quim., 16:33 (2019), 490–497  isi
    6. E. L. Kuznetsova, V A. Makarenko, “Mathematical model of energy efficiency of mechatronic modules and power sources for prospective mobile objects”, Period. Tche Quim., 16:32 (2019), 529–541  isi
    7. V. F. Formalev, S. A. Kolesnik, E. L. Kuznetsova, “Approximate analytical solution of the problem of conjugate heat transfer between the boundary layer and the anisotropic strip”, Period. Tche Quim., 16:32 (2019), 572–582  isi
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