Abstract
Experimental P, V, T data for nitric oxide are reviewed. An equation for the second virial coefficient is given together with the equation of state of NO over the temperature range 190–2000° K at densities 0–20 kmole/m3.
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H. L. Johnston and H. R. Weimer, J. Amer. Chem. Soc.,56, 625, 1934.
E. Briner, H. Biederman and A. Rother, Helv. chim. acta.,8, 923, 1925; J. chim. phys. et phys. chim. biol.,23, 157, 1926.
B. H. Golding and B. H. Sage, Industr. and Engng. Chem.,43, 161, 1951.
Thermodynamic Properties of Individual Substances [in Russian], Ed. V. P. Glushko et al., Izd. AN SSSR, 1962.
V. I. Kudashev, Author's abstract of Candidate's dissertation, Odessa, 1964.
A. A. Vasserman, ZhFKh, no. 10, 1964.
Thermophysical Properties of Substances. Handbook [in Russian], Ed. N. B. Vargaftik, Gosenergoizdat, 1956.
L. C. Nelson and E. F. Obert, Chemical Engineering, no. 7, 1954.
A. G. Tabachnikov, IFZh, no. 9, 1962.
I. B. Opfell, W. G. Schlinger, and B. H. Sage, Industr. and Engng. Chem.,46, 189, 1954.
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Tabachnikov, A.G., Serdyuk, L.S. Equation of state of nitric oxide over the temperature range 190–2000° K at densities of 0–20 kmole/m3 . Journal of Engineering Physics 9, 224–227 (1965). https://doi.org/10.1007/BF00828338
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DOI: https://doi.org/10.1007/BF00828338