论文信息 - Mathematical models and logic for the computer control of batch retorts: Conduction-heated foods

Mathematical models and logic for the computer control of batch retorts: Conduction-heated foods

Abstract A computer program was developed to implement a mathematical model to control on-line batch retort operations for conduction-heated foods. The model is based on a numeric solution for heat transfer in cylindrical cans. The heat transfer equation was solved using a numeric method with a variable grid. Integrated lethality values are calculated assuming first-order kinetics for microbial inactivation, taking into account the cumulative lethality of the heating and cooling period. The program adjusts process time automatically to compensate for any unexpected variation in retort temperature, and was validated using processes reported in the literature. The computational speed of the numeric method described could be applied to other calculation-intensive simulations.

Ricardo Simpson | Sergio F. Almonacid-Merino | J. Antonio Torres

[1] Malcolm J. W. Povey,et al. A microprocessor control system for thermal sterilisation operations , 1986 .

[2] R. Lawrence,et al. Computerized control strategies for a steam retort , 1989 .

[3] Arthur A. Teixeira,et al. EXPERIMENTAL EVALUATION OF MATHEMATICAL AND COMPUTER MODELS FOR THERMAL PROCESS EVALUATION , 1975 .

[4] Kan-Ichi Hayakawa,et al. Correction Factor of Deviant Thermal Processes Applied to Packaged Heat Conduction Food , 1982 .

[5] J. R. Dixon,et al. Computer determination of spore survival distributions in thermally-processed conduction-heated foods , 1969 .

[6] Thomas Ohlsson,et al. Optimal sterilization temperatures for sensory quality in cylindrical containers , 1980 .

[7] J. Torres,et al. Sterilization of Conduction‐Heated Foods in Oval‐Shaped Containers , 1989 .

[8] Hayakawa Kan-ichi. New Parameters for Calculating Mass Average Sterilizing Value to Estimate Nutrients in Thermally Conductive Food , 1969 .

[9] Ashim K. Datta,et al. Computer‐Based Retort Control Logic for On‐Line Correction of Process Deviations , 1986 .

[10] T. Ohlsson. OPTIMAL STERILIZATION TEMPERATURES FOR FLAT CONTAINERS , 1980 .

[11] Israel Saguy,et al. OPTIMAL RETORT TEMPERATURE PROFILE IN OPTIMIZING THIAMIN RETENTION IN CONDUCTION-TYPE HEATING OF CANNED FOODS , 1979 .