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Volatile compounds in butter oil: III. Recovery of added fatty acids and δ-lactones From volatile-free butter oil by cold-finger molecular distillation

Published online by Cambridge University Press:  01 June 2009

W. Stark
Affiliation:
Dairy Research Laboratory, Division of Food Research, C.S.I.R.O., Melbourne, Australia
Gerda Urbach
Affiliation:
Dairy Research Laboratory, Division of Food Research, C.S.I.R.O., Melbourne, Australia
Janet S. Hamilton
Affiliation:
Dairy Research Laboratory, Division of Food Research, C.S.I.R.O., Melbourne, Australia
D. A. Forss
Affiliation:
Dairy Research Laboratory, Division of Food Research, C.S.I.R.O., Melbourne, Australia

Summary

More than 90% of the C2,4,6,8,10 fatty acids and C8,10, δ-lactones added at quantities between 0·5 and 40 ppm were recovered from volatile-free butter oil by cold-finger molecular distillation at 35°C, while approximately 65% of the C12 fatty acid and of the C12 δ-lactone was recovered. Cold-finger molecular distillation at 50°C increased the recovery of the C12 compounds to more than 90%. The acids and lactones were estimated quantitatively as the free compounds by gas chromatography on a mixture of Carbowax 20 M and isophthalic acid as the stationary phase.

Type
Research Article
Copyright
Copyright © Proprietors of Journal of Dairy Research 1973

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References

REFERENCES

Bills, D. D., Khatri, L. L. & Day, E. A. (1963). Journal of Dairy Science 46, 1342.CrossRefGoogle Scholar
Boldingh, J. & Taylor, R. J. (1962). Nature 194, 909.CrossRefGoogle Scholar
Clarke, J. R. P. & Fredricks, K. M. (1967). Journal of Gas Chromatography 5, 99.CrossRefGoogle Scholar
De Jonge, A. P., Van der Ven, B. & Verhage, A. (1961). Recueil des Travaux Chimiques des Pays–Bas 80, 1186.CrossRefGoogle Scholar
Forss, D. A., Dunstone, E. A. & Stark, W. (1960). Journal of Dairy Research 27, 211.CrossRefGoogle Scholar
Forss, D. A. & Holloway, G. L. (1967). Journal of the American Oil Chemists' Society 44, 572.CrossRefGoogle Scholar
Handbook of Chemistry & Physics (1961), 43rd edn.Cleveland, Ohio: Chemical Rubber Publishing Company.Google Scholar
Honkanen, E. & Karvonen, P. (1966). Acta Chemica Scandinavica 20, 2626.CrossRefGoogle Scholar
Iyer, M., Richardson, T., Amundson, C. H. & Boudreau, A. (1966). Journal of Dairy Science 50, 228.Google Scholar
Jurriens, G. & Oele, J. M. (1965). Journal of the American Oil Chemists' Society 42, 857.CrossRefGoogle Scholar
McCarthy, R. D. & Duthie, A. H. (1962). Journal of Lipid Research 3, 117.CrossRefGoogle Scholar
Rodd, E. H. (1951). Chemistry of Carbon Compounds. Amsterdam: Elsevier Publishing Company.Google Scholar
Stark, W., Urbach, G., Jacobsen, V. M. & Hamilton, J. S. (1970). 18th International Dairy Congress, Sydney 1 E, 82.Google Scholar
Urbach, G., Stark, W. & Forss, D. A. (1972). Journal of Dairy Research 39, 35.CrossRefGoogle Scholar
Van Beers, G. J. & Van der Zijden, A. S. M. (1966). Revue Française des Corps Gras 13, 463.Google Scholar
Watt, P. Ridgway (1963). Molecular Stills. London: Chapman & Hall.Google Scholar