A cleaning simulator was used to determine the changes in soil and bacterial numbers on stainless steel surfaces over 30 12-h soiling and washing cycles with four cleaning systems. The soiling milk was inoculated with 5 x 10 5 Streptococcus faecalis and 5 X 10 5 Enterobacter aerogenes organisms/mi. One system included a pre-milk rinse of water (20 C), soiling milk (30 C), wash with alkaline detergent (50 C) and two rinses with water (20 C). In the second system, an iodophor sanitizer (25 mg available iodine/L, 20 C) was substituted for the pre-milk water rinse, and in the third the iodophor was substituted for the final water rinse. In the fourth system, the iodophor was applied instead of the fmal water rinse, but was left for the 9.5-h intercycle period and drained immediately before the next milk soiling. Results showed that the sanitizer can be an important and, under some conditions, the most effective system component in controlling the bacterial population on surfaces. Of the short contact-time sanitizer applications, the post-wash sanitizer was more effective in reducing the bacterial count than the pre-milk sanitizer, but application of the sanitizer for the complete intercycle period completely eliminated all viable bacteria and was thus far more effective than either of the short contact-time methods. It was also shown that the sanitizer can play an important role in the detergency of the system. The organisms studied (S. faecalis and E. aerogenes) differed in their soiling characteristics and survival in intercycle condi· tions.
CITATION STYLE
Dunsmore, D. G., & Thomson, M. A. (1981). Bacteriological Control of Food Equipment Surfaces by Cleaning Systems. II. Sanitizer Effects. Journal of Food Protection, 44(1), 21–27. https://doi.org/10.4315/0362-028x-44.1.21
Mendeley helps you to discover research relevant for your work.