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Deposit formation in a heat exchanger during pasteurization of CO2-acidified milk

Published online by Cambridge University Press:  01 June 2009

Marta M. Calvo
Affiliation:
Instituto de Fermentaciones Industriales (CSIC), Juan de la Cierva 3, E-28006 Madrid, España
Daniel de Rafael
Affiliation:
Instituto de Fermentaciones Industriales (CSIC), Juan de la Cierva 3, E-28006 Madrid, España

Abstract

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Type
Short Communications
Copyright
Copyright © Proprietors of Journal of Dairy Research 1995

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References

REFERENCES

Burton, H. 1968 Review article. Deposits from whole milk in heat treatment plant. A review and discussion. Journal of Dairy Research 35 317330CrossRefGoogle Scholar
Foster, C. L., Britten, M. & Green, M. L. 1989 A model heat-exchange apparatus for the investigation of fouling of stainless steel surfaces by milk. I. Deposit formation at 100°C. Journal of Dairy Research 56 201209CrossRefGoogle Scholar
Glaeser, H., Deinhart, M., Strobel, U. & Garnreiter, F. 1985 [Inhibition of growth of microorganisms in raw milk by gassing with N2, CO2 or N2/CO2 mixtures.] Deutsche Molkerei-Zeitung 106 678, 680684Google Scholar
Hegg, P. -O. & Larsson, K. 1981 Ellipsometry studies of absorbed lipids and milk proteins on metal surfaces. In Fundamentals and Applications of Surface Phenomena Associated with Fouling and Cleaning in Food Processing, pp. 250255 (Eds Hallström, B., Lund, D. B. and Trägårdh, C.). Alnarp Tylösand, Sweden: Lund UniversityGoogle Scholar
Jeurnink, Th. J. M. 1991 Effect of proteolysis in milk on fouling in heat exchangers. Netherlands Milk and Dairy Journal 45 2332Google Scholar
King, A. D. & Nagel, C. W. 1987 Growth inhibition of a Pseudomonas by carbon dioxide. Journal of Food Science 32 575579CrossRefGoogle Scholar
Patil, G. R. & Reuter, H. 1988 Deposit formation in UHT plants. III. Effect of pH of milk in directly and indirectly heated plants. Milchmssenschaft 43 360362Google Scholar
Shudder, P. J., Brooker, B. E., Bonsey, A. D. & Alvarez-Guerrero, X. R. 1986 Effect of pH on the formation of deposit from milk on heated surfaces during ultra high temperature processing. Journal of Dairy Research 53 7587CrossRefGoogle Scholar
Thom, R. 1979 Reduction of deposit in a plate pasteurizer by gas removal from raw milk. Roczniki Instytutu Przemyslu Mleczarskiego 31, 1725Google Scholar