Kinetic modelling of acrylamide formation during the frying of potato chips
2021
Knight, Matthew | McWilliam, Simon | Peck, Sarah | Koutsidis, Georgios | Chope, Gemma | Puddephat, Ian | Wedzicha, Bronislaw
The effect of potato tuber composition, frying time and temperature on acrylamide formation in potato chips was investigated and a mathematical model of the kinetics of acrylamide formation is provided. Moisture-temperature–time profiles were obtained for potato slices during frying to enable the determination of the ‘effective’ reaction time by identifying the critical moisture content (6% dwb) for acrylamide formation to commence and using dehydration curves to calculate subsequent frying time to finished product moisture content. The chemical kinetic model conformed to the following rate equation over a one hundred-fold range of acrylamide concentrations: d[acryl]dt=k1glucoseasn+k6[fructose][asn][TAA] where [TAA] represents total amino acid concentration. The timescale of the frying process meant that the chemical reactions were all in their initial rate phase. Kinetic parameters confirm that the fructose-dependent reaction (caramelization) contributes twice as much acrylamide as the reaction of glucose (Maillard reaction).
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