Abstract
AbstractThe article aimed at the evaluation of possible use of nephelometers to monitor changes of turbidity in cleaning solution while cleaning in flow. The results demonstrate the ability to control the duration of cleaning programs. The tests were carried out in a laboratory Clean in Place station and aimed to clean a 10-section plate heat exchanger contaminated by milk. On the basis of the data, the turbidity curves were calculated. On their basis, the kinetic of the cleaning process was revealed. Following turbidity data collection, the heat exchanger plates were also checked for remaining milk contamination. The proposed cleaning steps allow for the possibility to manipulate the cleaning program’s time, and, correspondingly, enable higher energy efficiency in the program. In comparison with the conventional cleaning program currently used in processing plants, our findings demonstrate that the proposed method to monitor turbidity reduces energy consumption by 40 % without decreasing cleanliness.
Subject
Engineering (miscellaneous),Food Science,Biotechnology
Reference46 articles.
1. Nanofiltration of cleaning-in-place (CIP) wastewater in a detergent plant: effects of pH, temperature and transmembrane pressure on flux behavior;Sep Purif Technol,2009
2. Electrical energy aspects and cleanliness in the cleaning process in CIP system a plate heat exchanger;Tech Process Food Process,2014
3. Effect of flow arrangement on the removal of Bacillus spores from stainless steel equipment surfaces during a cleaning in place procedure;Chem Eng Sci,2007
4. A mathematical model of the removal of milk protein deposit, heat exchanger fouling and cleaning;Fundam Appl,2004
5. Challenges in cleaning: recent developments and future prospects;Heat Exch Fouling Clean Fundam Appl,2003
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