Author: Lopes J.N.C. Calado J.C.G.
Publisher: Academic Press
ISSN: 0021-9614
Source: Journal of Chemical Thermodynamics, Vol.28, Iss.12, 1996-12, pp. : 1395-1401
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Abstract
The vapour pressure of liquid D 2 S and the difference between the vapour pressures of liquid H 2 S and D 2 S have been measured at 22 temperatures in the T = (193 to 230) K range. The vapour pressure data, corrected to 100 per cent isotopic purity, have been fitted with the equation: (I/K)·ln r = -29.385 + 5298.6·(K/ T ) + 0.02557·( T /K), where r is the vapour pressure ratio between the isotopic species, r = p (H 2 S)/ p (D 2 S). This system exhibits a crossover point ( r = 1 at T ~ 224 K) in the vapour pressure isotope effect (VPIE). The VPIE is normal in the lower temperature range and inverse at higher temperatures. Comparisons with both experimental and theoretical data from other authors confirm the validity of the fitted equation as a way to describe the vapour pressure isotope effect of (dihydrogen sulphide + dideuterium sulphide) in the liquid phase.
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