Empirical Modeling of Fouling Rate of Milk Pasteurization Process : A case study

T. Budiati, N. Wahyono, M. Hefni
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Abstract

Abstract Fouling in heat exchanger becomes a major problem of dairy industry and it increases the production cost. These are lost productivity, additional energy, additional equipment, chemical, manpower, and environmental impact. Fouling also introduces the risk of food safety due to the improper heating temperature which allow the survival of pathogenic bacteria in milk, introducing biofilm formation of pathogenic bacteria in equipments and spreading the pathogenic bacteria to milk. The aim of this study is to determine the fouling rate during pasteurization process in heat exchanger of pasteurized milk produced by Village Cooperative Society (KUD) “X” in Malang, East Java Indonesia by using empirical modeling. The fouling rate is found as 0.3945 o C/h with the heating process time ranged from 0 to 2 hours and temperature difference (hot water inlet temperature and milk outlet temperature) ranged from 0.654 to 1.636 o C. The fouling rate depends on type and characteristics of heat exchangers, time and temperature of process, milk type, age of milk, seasonal variations, the presence of microorganism and more. This results will be used to plan Cleaning In Place (CIP) and to design the control system of pasteurization process in order to maintain the milk outlet temperature as standard of pasteurization.
牛奶巴氏杀菌过程中污垢率的实证建模:一个案例研究
换热器结垢已成为乳品行业的一大难题,它增加了生产成本。这些损失包括生产力损失、额外的能源、额外的设备、化学品、人力和环境影响。由于加热温度不合适,导致病原菌在牛奶中存活,导致病原菌在设备中形成生物膜,并将病原菌传播到牛奶中,从而带来食品安全风险。本研究的目的是通过实证建模来确定印尼东爪哇玛琅村合作社(KUD)“X”生产的巴氏奶在巴氏灭菌过程中换热器的污染率。当加热时间为0 ~ 2小时,温度差(热水入口温度和牛奶出口温度)为0.654 ~ 1.636℃时,结垢率为0.3945℃/h。结垢率取决于换热器的类型和特性、工艺时间和温度、牛奶类型、牛奶年龄、季节变化、微生物的存在等因素。该结果将用于规划就地清洗(CIP)和设计巴氏杀菌过程控制系统,以保持牛奶出口温度作为巴氏杀菌的标准。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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