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TVT, 2005, Volume 43, Issue 2, Pages 256–266 (Mi tvt1271)  

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

Heat and Mass Transfer and Physical Gasdynamics

Modeling of thermal radiation of polymer coating containing hollow microspheres

L. A. Dombrovskii

Joint Institute for High Temperatures, Russian Academy of Sciences, Moscow

Abstract: The paper deals with the effect of hollow microspheres added to paint or another polymer coating for open surfaces of a building on the heat loss due to thermal radiation. An approximate theoretical model is suggested, which is based on the spectral calculation of the radiative characteristics of a disperse system and determination of the integral flux of thermal radiation. Calculations are performed for a layer of paint with hollow glass microspheres. It is demonstrated that the microsphere shell thickness has the strongest effect on the reduction of heat loss.

Full text: PDF file (1981 kB)

English version:
High Temperature, 2005, 43:2, 247–258

UDC: 536.3
Received: 17.02.2004

Citation: L. A. Dombrovskii, “Modeling of thermal radiation of polymer coating containing hollow microspheres”, TVT, 43:2 (2005), 256–266; High Temperature, 43:2 (2005), 247–258

Citation in format AMSBIB
\by L.~A.~Dombrovskii
\paper Modeling of thermal radiation of polymer coating containing hollow microspheres
\jour TVT
\yr 2005
\vol 43
\issue 2
\pages 256--266
\jour High Temperature
\yr 2005
\vol 43
\issue 2
\pages 247--258

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  • http://mi.mathnet.ru/eng/tvt/v43/i2/p256

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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. Cekon M., Kalousek M., Hraska J., Ingeli R., “Spectral Optical Properties and Thermodynamic Performance of Reflective Coatings in a Mild Climate Zone”, Energy Build., 77 (2014), 343–354  crossref  isi  elib
    2. Ye Ch., Wen X., Lan J.-l., Cai Zh.-q., Pi P.-h., Xu Sh.-p., Qian Yu., “Surface Modification of Light Hollow Polymer Microspheres and Its Application in External Wall Thermal Insulation Coatings”, Pigm. Resin. Technol., 45:1 (2016), 45–51  crossref  isi
    3. Cheng Z., Wang F., Wang H., Liang H., Ma L., “Effect of Embedded Polydisperse Glass Microspheres on Radiative Cooling of a Coating”, Int. J. Therm. Sci., 140 (2019), 358–367  crossref  isi  scopus
    4. Vlaskin M.S., Grigorenko V A., Chernova I N., Kiseleva V S., Lipatova I.A., Popel O.S., DombrovsKy L.A., “the Hydrothermal Liquefaction as a Promising Procedure For Microalgae-to-Biofuel Conversion: a General Review and Some Thermophysical Problems to Be Solved”, High Temp.-High Press., 48:4 (2019), 309–351  crossref  isi  scopus
    5. Dombrovsky L.A., Kokhanovsky A.A., “Solar Heating of Ice Sheets Containing Gas Bubbles”, J. Quant. Spectrosc. Radiat. Transf., 250 (2020), 106991  crossref  isi
    6. Shi Sh., Lei B., Li M., Cui X., Wang X., Fan X., Tang Sh., Shen J., “Thermal Decomposition Behavior of a Thermal Protection Coating Composite With Silicone Rubber: Experiment and Modeling”, Prog. Org. Coat., 143 (2020), 105609  crossref  isi  scopus
    7. Cheng Z., Shuai Y., Gong D., Wang F., Liang H., Li G., “Optical Properties and Cooling Performance Analyses of Single-Layer Radiative Cooling Coating With Mixture of Tio2 Particles and Sio2 Particles”, Sci. China-Technol. Sci., 64:5 (2021), 1017–1029  crossref  isi  scopus
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