Monte Carlo procedures can be used to evaluate the uncertainty of food safety and quality estimations associated with the variability in the parameters for the calculation model used Procedures for possible inclusion in an undergraduate process engineering course covering the assessment of uncertainty in thermal processing decisions were developed using spreadsheets and operations found in the Excel(TM) Analysis ToolPack Published thermal decimal reduction time (D(T) T = 110 degrees C) and initial spore load (N(o) spores/container) level for Clostridium botulinum Type B in mushroom were used to estimate a thermal process mg time (F(T)) For a survival probability (N) of 1 spore in 10(9) containers and using mean values for the parameters D(T) and log N(o) yielded F(110 C) = 5 96 min Unique combinations of D(T) and N(o) datasets generated assuming normal and lognormal distributions respectively were used to obtain the distribution for the spore survival probability and the associated percentage of under processing Next the coefficient of variation (CV) for the percentage of under processing based on 2-500 generated datasets was calculated and used a a criterion to determine that 100 was an acceptable minimum number of datasets to estimate a recommended thermal process (F(110 C) = 9 6 min) considering the reported variability of the parameters DT and N(o) This thermal process would yield a 10(-9) failure rate with a 95% confidence based on the frequency distribution for spore survival probability The same procedures were used to assess the impact of lowering the standard deviation of

• 出版日期2011-2