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Steam distillation of taints from cream. XI. The use of benzyl mercaptan (35S) in a study of its vapour/liquid equilibrium relationships

Published online by Cambridge University Press:  01 June 2009

N. J. Walker
N. J. Walker
Affiliation:
The Dairy Research Institute (N.Z.), palmerston North, New Zealand
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Summary

Solutions of labelled benzyl mercaptan-(35S) in water and cream were subjected to steam distillation in a continuous vaporization equilibrium still, and the concentrations of mercaptan in distillates and residues were obtained by measurement of the radioactivity in toluene extracts.

In the steam distillation from aqueous solution the vapour/liquid equilibrium relationship was not linear. The vapour/liquid equilibrium coefficient increased from 73 to 108 over the range of concentrations 0·01–0·05 ppm. in the liquid fraction at the time of partition.

In the steam distillation from cream containing 30% fat the relationship was linear, with an equilibrium coefficient of 1·35 over the range 0·1–0·6 ppm. in the cream at the time of partition.

The values of the vapour /liquid equilibrium coefficients are of the same order as those reported previously, 105 and 1·30, respectively, for which estimations were made by an absorption method.

The butterfat/water partition coefficient for benzyl mercaptan was found to be 160, which is consistent with the large difference found between the steam volatilities of the substance from water and from cream.

Type
Original Articles
Information
Journal of Dairy Research , Volume 32 , Issue 3 , October 1965 , pp. 229 - 235
Copyright
Copyright © Proprietors of Journal of Dairy Research 1965

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References

REFERENCES

Forss, D. A. (1951). Aust. J. appl. Sci. 2, 396.Google Scholar
McDowall, F. H. (1955). N.Z. Jl Sci. Technol. 37B, 1.Google Scholar
McDowall, F. H. (1959 a). J. Dairy Res. 26, 39.CrossRefGoogle Scholar
McDowall, F. H. (1959 b). J. Dairy Res. 26, 46.CrossRefGoogle Scholar
McDowall, F. H. (1965). J. Dairy Res. 32, 147.CrossRefGoogle Scholar