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TVT, 2016, Volume 54, Issue 5, Pages 817–820 (Mi tvt324)  

This article is cited in 4 scientific papers (total in 4 papers)

Short Communications

Influence of the structure of a droplet sheet on the capacity of frameless space radiators and the efficiency of the power units

A. A. Koroteeva, A. A. Safronovb, N. I. Filatovb

a Moscow Aviation Institute (National Research University)
b Federal State Unitary Enterprise "Keldysh Research Center", Moscow

Abstract: The development of a fine-dispersed droplet sheet of optimal structure for frameless space lowtemperature heat rejection systems is considered. The possibility of an optimal combination of the thermal capacity rejected by a droplet radiative cooler and the predicted efficiency of the space power unit is substantiated. The dependences of the basic thermal characteristics on the number of droplet planes used have been derived for low- and medium-temperature radiators with an ionic-liquid-based heat carrier.

Funding Agency Grant Number
Russian Science Foundation 14-19-00503
This work was supported by the Russian Science Foundation, project no. 14-19-00503.


DOI: https://doi.org/10.7868/S0040364416050173

Full text: PDF file (338 kB)
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English version:
High Temperature, 2016, 54:5, 767–770

Bibliographic databases:

UDC: 532.529
Received: 04.02.2016

Citation: A. A. Koroteev, A. A. Safronov, N. I. Filatov, “Influence of the structure of a droplet sheet on the capacity of frameless space radiators and the efficiency of the power units”, TVT, 54:5 (2016), 817–820; High Temperature, 54:5 (2016), 767–770

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. A. Safronov, N. I. Filatov, A. A. Koroteev, N. V. Bondareva, “Temperature stabilization in dispersed flows of frameless heat removal systems in space”, Thermophys. Aeromechanics, 24:6 (2017), 957–960  crossref  isi  scopus
    2. A. A. Koroteev, A. A. Safronov, N. I. Filatov, A. L. Grigoriev, “The Effect of Long-Range Interactions on Development of Thermal Waves in the Radiation-Cooling Dispersed Flow”, Nelineinaya dinam., 14:3 (2018), 343–354  mathnet  crossref
    3. A. A. Safronov, A. A. Koroteev, I N. Filatov, “Establishment of temperature in radiatively cooled disperse flow in the presence of external thermal radiation”, J. Eng. Phys. Thermophys., 91:6 (2018), 1514–1520  crossref  isi  scopus
    4. A. L. Grigoriev, A. A. Koroteev, A. A. Safronov, N. I. Filatov, “Self-similar patterns of subsatellites formation at the capillary breakup of viscous jets”, Thermophys. Aeromechanics, 25:4 (2018), 575–585  crossref  isi  scopus
  • Teplofizika vysokikh temperatur Teplofizika vysokikh temperatur
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