Abstract
The problem of an equivalent constant exponent in real-gas processes is analyzed here. A numerical example is shown where air undergoes adiabatic compression.
Abbreviations
- p:
-
pressure
- T:
-
absolute temperature
- v:
-
specific volume
- κ, k:
-
adiabatic exponents
Literature cited
I. M. Shultz, Trans. ASME Power Machine Design,84A, No. 1 (1962).
M. P. Vukalovich, V. N. Zubarev, and L. V. Sergeeva, Teploénergetika, No. 10 (1968).
V. P. Dobrodeev and A. L. Klyachkin, Teploénergetika, No. 12 (1969).
V. P. Dobrodeev, Teploénergetika, No. 8 (1970).
A. A. Vasserman, Ya. Z. Kazavchinskii, and V. A. Rabinovich, Thermophysical Properties of Air and Its Components [in Russian], Izd. Nauka, Moscow (1966).
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Translated from Inzhenerno-Fizicheskii Zhurnal, Vol. 22, No. 6, pp. 1107–1109, June, 1972.
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Khairutdinov, K.A. On the variability of the exponent in real-gas processes. Journal of Engineering Physics 22, 770–771 (1972). https://doi.org/10.1007/BF00822990
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DOI: https://doi.org/10.1007/BF00822990