超高压杀灭低酸性食品中耐压菌的动力学模型

    Model of inactivation kinetics of pressure resistant strains in low acid food by ultra-high pressure processing

    • 摘要: 为了描述超高压杀菌过程和预测杀菌效果,该文建立了超高压对低酸性食品中4种耐压菌及其芽孢的杀菌动力学模型。首先在300~500 MPa的超高压条件下获得了枯草芽孢杆菌、地衣芽孢杆菌、嗜热脂肪芽孢杆菌和致黑梭状芽孢杆菌的芽孢致死曲线。选取线性模型和Weibull模型来拟合超高压杀菌的动力学过程,以精确因子、均方差和决定系数R2作为模型拟合度优劣的评判指标。数据分析结果表明,Weibull模型在300~500 MPa具有很好的拟合性(R2>0.9),线性模型的拟合效果不佳(R2<0.83)。所得Weibull方程可有效预测特定压力-时间组合下的灭菌效果,可用于指导超高压灭菌的实际生产。

       

      Abstract: The ultra-high pressure inactivation models of pressure resistant strains in low acid food were studied in order to describe and predict the inactive effects. Four kinds of spores from spoilage strains (Bacillus subtilis, Bacillus licheniformis, Bacillus stearothermophilus and Desulfotomaculum nigrificans) were inactivated under 300-500 MPa, and their survival curves were determined at selected time intervals. Weibull and traditional linear models were used to describe the ultra-high pressure inactivation model. Three criteria, accuracy factor (Af), mean square error (MSE) and regression coefficients (R2) were used to compare the linear and Weibull models. The results suggested that Weibull model fitted well at 300–500 MPa (R2>0.9), while the linear model could be applied only at 300 MPa (R2<0.83). The equation of Weibull would be beneficial to the food industry in selecting optimum combinations of pressure and time to obtain the desired target levels of bacterial inactivation.

       

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