贮存温度对超高温灭菌乳黏度的影响

    Effects of ambient temperatures on viscometric change of ultra-high temperature processed cow milk

    • 摘要: 为了确定贮存温度对超高温灭菌乳黏度的影响,从而达到在较短的时间内评价超高温灭菌的货架期目的。该文采用TA AR-G2型流变仪测定了20~45℃温度变化范围内超高温灭菌乳的黏度变化,利用1stOpt1.5 Pro软件对试验数据进行拟合处理,探索Arrhenius模型对该过程的适用性,以期建立可描述温度对超高温灭菌乳黏度影响的精确模型,并结合Stocks方程为建立超高温灭菌乳货架期加速试验模型奠定基础。试验结果表明,κ-卡拉胶与酪蛋白形成的弱凝胶会显著影响Arrhenius模型对提高温度改变超高温灭菌乳黏度的拟合度,但随着温度升高至25℃会使得弱凝胶体系变弱,从而使得黏度随温度的变化与Arrhenius模型高度吻合(R2=0.908);降温会导致黏度逐渐升高,此过程与Arrhenius模型拟合度较好(R2=0.942)。因此,Arrhenius模型适于描述温度对超高温灭菌乳黏度的影响。

       

      Abstract: The viscosity of ultra-high temperature (UHT) processed cow milk changing with temperature in the range of 20℃ to 45℃ were determined by TA AR-G2 rheometer and the data were fitted by 1stOpt1.5 Pro software, in order to evaluate the applicability of Arrhenius model to describe the course, explore the influence of ambient temperature on the shelf-life based on Stokes’ law and establish theoretical basis of accelerated shelf-life testing for UHT milk. The results showed that, in the range of 20℃ to 45℃, the viscosities of UHT milk slightly increased from 20℃ to 25℃ and then significantly decreased as the temperature rising, however gradually increased during cooling from 45℃ to 20℃. The fittness of Arrhenius model to describe the viscosity changes during heating was significantly affected by weak gel formed between κ-carrageenan and casein. When temperature was elevated to 25℃, the weak gel was disrupted and thereafter the viscosity changes of the system obeyed Arrhenius model well (R2=908). The viscosity changes during cooling also followed Arrhenius model (R2=0.942). Hence, Arrhenius model is fit for describing the temperature-dependency viscosity changes in the UHT cow milk.

       

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