par Hanon, Cécile 
;Al Hassan, Morouge;Nassouh, Soulaimane ;Abuabdou, Salahaldin ;Van Engeland, Charlotte ;Debaste, Frédéric
Référence Applied Sciences (Switzerland), 15, page (10319)
Publication Publié, 2025-09-23
;Al Hassan, Morouge;Nassouh, Soulaimane ;Abuabdou, Salahaldin ;Van Engeland, Charlotte ;Debaste, Frédéric Référence Applied Sciences (Switzerland), 15, page (10319)
Publication Publié, 2025-09-23
Article révisé par les pairs
| Résumé : | Drying critically shapes tofu's texture, structure, and final appearance, whether it occurs during cooking or is applied intentionally in reprocessing. This study aimed to characterize the drying kinetics of tofu through experimental analysis and through modeling. Tofu samples were dried at temperatures ranging from 40 $^circ$C to 90 $^circ$C using a convective drying tunnel and an oven. Shrinkage and color changes were analyzed. Empirical models, a shrinking-core model and a newly developed oven-cooking model were tested against experimental data. The drying kinetics exhibited a constant and a decreasing rate phase, which were separated by a water content threshold of 2.56 kgW/kgDS. Tofu undergoes non-enzymatic browning and exhibited total shrinkage of 0.38. These physical changes were more significant at lower drying temperatures when the product was dried below a water content of 1.39 kgW/kgDS. The logarithmic model provided the best fit (R2$geq$0.9920) to the experimental data. However, the cooking model shows good results as well (R2 |
