Temperature and food stability: analysis and control.
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[1] M. Peleg. On the use of the WLF model in polymers and foods. , 1992, Critical reviews in food science and nutrition.
[2] M. Karel,et al. APPLICATION of the WLF EQUATION to DESCRIBE the COMBINED EFFECTS of MOISTURE and TEMPERATURE ON NONENZYMATIC BROWNING RATES IN FOOD SYSTEMS , 1993 .
[3] D. Lund,et al. Experimental procedures for determining destruction kinetics of food components , 1980 .
[4] P. Taoukis,et al. Prediction for Shelf Life and Safety of Minimally Processed CAP/MAP Chilled Foods: A Review. , 1992, Journal of food protection.
[5] P. S. Taoukis,et al. Application of shelf life modelling of chilled salad products to a TTI based distribution and stock rotation system , 1998 .
[6] T. Labuza,et al. NON‐ENZYMATIC BROWNING OF HYGROSCOPIC WHEY POWDERS IN OPEN VERSUS SEALED POUCHES , 1981 .
[7] L. Tijskens,et al. Modelling temperature and pH dependence of lipase and peroxidase activity in Turkish hazelnuts , 2002 .
[8] P. Taoukis,et al. Comparative shelf life study and vitamin C loss kinetics in pasteurised and high pressure processed reconstituted orange juice , 2003 .
[9] P. Taoukis,et al. Systematic Application of Time Temperature Integrators as Tools for Control of Frozen Vegetable Quality , 2002 .
[10] John F. Kennedy,et al. Studies on the occurrence of non-enzymatic browning during storage of citrus juice , 1999 .
[11] P. S. Taoukis,et al. 6 – Time-temperature indicators (TTIs) , 2003 .
[12] Pau Talens,et al. Changes in mechanical properties throughout osmotic processes: Cryoprotectant effect , 2001 .
[13] T. Kirkwood,et al. Predicting the stability of biological standards and products. , 1977, Biometrics.
[14] J. Běhrádek. TEMPERATURE COEFFICIENTS IN BIOLOGY , 1930 .
[15] G. Barbosa‐Cánovas,et al. Polyphenoloxidase activity and color changes during storage of high hydrostatic pressure treated avocado puree , 1998 .
[16] M. Giannakourou,et al. Application of a TTI‐based Distribution Management System for Quality Optimization of Frozen Vegetables at the Consumer End , 2003 .
[17] K Koutsoumanis,et al. Application of shelf life decision system (SLDS) to marine cultured fish quality. , 2002, International journal of food microbiology.
[18] K. Koutsoumanis,et al. Predictive Modeling of the Shelf Life of Fish under Nonisothermal Conditions , 2001, Applied and Environmental Microbiology.
[19] Konstantinos P. Koutsoumanis,et al. Applicability of an Arrhenius Model for the Combined Effect of Temperature and CO2 Packaging on the Spoilage Microflora of Fish , 2000, Applied and Environmental Microbiology.
[20] T. Ross,et al. A process risk model for the shelf life of Atlantic salmon fillets. , 2002, International journal of food microbiology.
[21] P. S. Taoukis,et al. The relationship between processing and shelf-life. , 1990 .
[22] M. Hendrickx,et al. Kinetics of the Alkaline Phosphatase Catalyzed Hydrolysis of Disodium p‐Nitrophenyl Phosphate in Frozen Model Systems , 2002, Biotechnology progress.
[23] T. Labuza,et al. Application of Weibull Hazard analysis to the determination of the shelf life of roasted and ground coffee , 2001 .
[24] C. Biliaderis,et al. Physicochemical properties of commercial starch hydrolyzates in the frozen state , 1999 .
[25] T. Labuza,et al. Shelf-Life Testing: Procedures and Prediction Methods , 1997 .
[26] Da‐Wen Sun,et al. Predictive food microbiology for the meat industry: a review. , 1999, International journal of food microbiology.
[27] M. Giannakourou,et al. Stability of Dehydrofrozen Green Peas Pretreated with Nonconventional Osmotic Agents , 2003 .
[28] A. N. Stokes,et al. Model for bacterial culture growth rate throughout the entire biokinetic temperature range , 1983, Journal of bacteriology.
[29] H. Goff,et al. Structure and stability of the glassy state in rapidly and slowly cooled carbohydrate solutions , 1996 .
[30] P. Taoukis,et al. Applicability of Time‐Temperature Indicators as Shelf Life Monitors of Food Products , 1989 .
[31] M. Nicoli,et al. Polyphenoloxidase and peroxidase activity in partially frozen systems with different physical properties , 1998 .
[32] I. Saguy,et al. Kinetics of Food Deterioration and Shelf-Life Prediction , 1997 .
[33] Maarten Hertog,et al. The effects of temperature and senescence on the accumulation of reducing sugars during storage of potato (Solanum tuberosum L.) tubers: A mathematical model , 1997 .
[34] M. Hendrickx,et al. Kinetics of the Pectin Methylesterase Catalyzed De‐Esterification of Pectin in Frozen Food Model Systems , 2002, Biotechnology progress.
[35] D. Boyacioğlu,et al. Kinetics of non-enzymatic colour development in glucose syrups during storage , 1997 .
[36] K Koutsoumanis,et al. Development and assessment of an intelligent shelf life decision system for quality optimization of the food chill chain. , 2001, Journal of food protection.
[37] T. Labuza,et al. EVALUATION OF SEVERAL PULSED NMR TECHNIQUES FOR SOLIDS‐IN‐FAT DETERMINATION OF COMMERCIAL FATS , 1977 .
[38] G. Blond,et al. Modification of glass transition temperature through carbohydrates additions : effect upon colour and anthocyanin pigment stability in frozen strawberry juices , 1999 .
[39] S. Arrhenius. Über die Reaktionsgeschwindigkeit bei der Inversion von Rohrzucker durch Säuren , 1889 .
[40] Theodore P. Labuza,et al. Shelf-life prediction: theory and application , 1993 .
[41] R. Landel,et al. The Temperature Dependence of Relaxation Mechanisms in Amorphous Polymers and Other Glass-Forming Liquids , 1955 .
[42] M. P. Elustondo,et al. Non-enzymatic browning of peach juice concentrate during storage , 2000 .
[43] Y. Aso,et al. Statistical evaluation of nonisothermal prediction of drug stability. , 1987, Journal of pharmaceutical sciences.
[44] Petros Taoukis,et al. Kinetic modelling of vitamin C loss in frozen green vegetables under variable storage conditions , 2003 .
[45] M. Le Meste,et al. Reaction rate modeling in cryoconcentrated solutions: alkaline phosphatase catalyzed DNPP hydrolysis. , 2000, Journal of agricultural and food chemistry.
[46] T. Furuki. Effect of molecular structure on thermodynamic properties of carbohydrates. A calorimetric study of aqueous di- and oligosaccharides at subzero temperatures. , 2002, Carbohydrate research.
[47] P. Dalgaard,et al. Application of an iterative approach for development of a microbial model predicting the shelf-life of packed fish. , 1997, International journal of food microbiology.
[48] J. H. Bushill,et al. The crystallisation of lactose with particular reference to its occurrence in milk powder. , 1965, Journal of the science of food and agriculture.