Conclusions
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1.
The suggested method for determining specific heat flows requires a minimum number of known parameters and a minimum amount of work in processing experimental results.
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2.
The method is suitable for counting from the beginning of the process τ=0, and this is important in the case of short-term experiments.
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3.
It has been shown that local heat emission coefficients (mean with respect to time) can be determined by measuring the surface temperature of plates.
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Literature cited
G. N. Kondrate'ev, Normal Heat Operation Condition [in Russian], Gostekhizdat, Moscow (1953).
E. V. Kudryavtsev, K. N. Chekalev, and N. V. Shumakov, Transient Heat Exchange [in Russian], Izd. AN SSSR, Moscow (1961).
O. Burggraf, “Precise solution of the reciprocal problem in the theory of heat conduction and its application,” Transactions of the American Institution of Mechanical Engineers [Russian translation], series S, Heat Transfer No. 3 (1964).
I. Frank “Application of the least squares method for solving the reciprocal problem of heat conduction,” Transactions of the American Institution of Mechanical Engineers [Russian translation], series S, Heat Transfer No. 4 (1963).
Additional information
Translated from Izmeritel'naya Tekhnika, No. 7, pp. 37–39, July, 1971.
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Pirogov, L.K. Evaluation of specific heat flows in an experimental installation by measuring surface temperature. Meas Tech 14, 1034–1038 (1971). https://doi.org/10.1007/BF00983036
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DOI: https://doi.org/10.1007/BF00983036