Журнал Российского общества по неразрушающему контролю и технической диагностике
The journal of the Russian society for non-destructive testing and technical diagnostic
 
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22 | 12 | 2024
2016, 06, June

DOI: 10.14489/td.2016.06.pp.056-061

 

Gareev R.R., Eremeeva Zh.V., Tsirelman N.M.
METHOD OF DETERMINING THE TEMPERATURE OF THE PLASMA JET AT THE ATMOSPHERIC PLASMA TORCH NOZZLE EXIT
(pp. 56-61)

Abstract. In order to optimize the technological flow of the plasma spraying coating process and its parameters control the new method of determining the temperature of the plasma jet at the atmospheric plasma torch nozzle exit was proposed and investigated. For the first time the analytical solution of the boundary inverse heat transfer problem was used in order to avoid a significant impact on the enthalpy of the plasma jet and increase the measurements accuracy. By means of this solution the heat flux is estimated on the inner surface of the plasmotron nozzle heat receiver wall washed by the plasma, and the temperature of the plasma calculated using these data. The input data for the calculation was the temperature change at the thermally insulated rear (outer) side of the heat receiver wall which was not in contact with the plasma. Verification of the method and experimental studies has shown the acceptability of such identification.

Keywords: plasma surfacing, coating, plasma temperature, the contact methods of high temperature studying, inverse heat transfer problem solution.

 

R. R. Gareev, Z. V. Eremeeva (National University of Science and Technology "MISIS", Moscow, Russia) E-mail: Данный адрес e-mail защищен от спам-ботов, Вам необходимо включить Javascript для его просмотра.
N. M. Tsirelman (Ufa State Aviation Technical University, Ufa, Russia)

 

 

1. Mikhailov B. I. (2005). Heat recovery in electric vortexsteam plasmatrons. Auto plasmatrons. Teplofizika i aeromekhanika, 12(1), pp. 135-148.
2. Tsirel'man N. M. (2005). Direct and inverse problems of heat and mass transfer. Moscow: Energoatomizdat.
3. Tsirel'man N. M. (2011). The theory and applied heat and mass transfer problems. Moscow: Mashinostroenie.
4. Lykov A. V., Smol'skii B. M. (Eds.). (1963). Heat and mass transfer. Vol. III. General questions of heat exhange. Moscow–Leningrad: Gosenergoizdat.
5. Biberman L. M. (Ed.). (1970). Optical properties of hot air. Moscow: Nauka.
6. KLEIBER Infrared. Available at: http://www.kleiberinfrared.com/index.php/en/applications/emissivity.html (Accessed: 08.11.2011).
7. Churkin I. S., Shustov F. I. (2008). Study of the torch of airarc plasma generator for spraying using a water-cooled probe. XXXVI Science week of Peter the Great St. Petersburg Polytechnic University: collection of scientific papers. (pp. 65-66). St. Petersburg: SPbGPU.
8. Mariaux G., Vardelle A. (2005). 3-D timedependent modelings of the plasma spray process. Part 1: Flow modeling. International Journal of Thermal Sciences, (44), pp. 357-366. doi: 10.1016/j.ijthermalsci.2004.07.006
9. Lelevkin V. M., Semenov V. F. (2002). Heat transfer of arc in the plasmatron channel with porous interelectrode insert. Vestnik KRSU, (4).
10. Kyoungjin Kim. (2005). Numerical simulation of capillary plasma flow generated by high-current pulsed power. International Journal of Thermal Sciences. (44), pp. 1039- 1046.
11. Takehiko Sato, Masaya Shigeta, Daigo Kato, Hideya Nishiyama. (2001). Mixing and magnetic effects on a nonequilibrium argon plasma jet. International Journal of Thermal Sciences, (40), pp. 273-278. doi: 10.1016/S1290-0729(00)01217-5.

 

 

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