Understanding the thermo-rheological properties of fruit-based beverages is critical for optimizing their industrial processing, stability, and sensory quality. This study evaluates the viscosity and flow behavior of depectinized passion fruit nectar (P. ligularis), standardized to 25° Brix, across a temperature range of 5 to 85°C. Apparent viscosity was measured using a Brookfield DV3T rotational viscometer with concentric cylinder geometry. The nectar displayed Newtonian flow behavior, maintaining consistent viscosity regardless of shear rate. Viscosity decreased significantly with rising temperature, from 0.00778 Pa·s at 5°C to 0.00018 Pa·s at 85°C. The Arrhenius model was applied to describe the temperature dependence of viscosity, yielding an activation energy (Ea) of 38.35 kJ/mol. The model fit was statistically robust (R² = 0.9913; RMSE = 0.000485 Pa·s), indicating predictable thermal behavior. Enzymatic depectinization played a key role in achieving this flow profile, eliminating structural polysaccharides that would otherwise induce non-Newtonian characteristics. These findings are industrially relevant for the design of efficient pasteurization, pumping, and packaging systems, especially for clean-label juice products. By characterizing the thermo-rheological response of this underexplored tropical nectar, this study contributes original data to the field of food engineering and supports the formulation of stable, energy-efficient fruit-based beverages.
Rheological behavior and thermal sensitivity of depectinized passion fruit nectar (Passiflora ligularis)
Authors
- Olegario Marín-Machuca Professional School of Food Engineering, Faculty of Oceanography, Fisheries, Food Sciences and Aquaculture, National University Federico Villarreal (UNFV), Lima, Peru. https://orcid.org/0000-0002-0515-5875
- Abel Walter Zambrano-Cabanillas Academic Department of Aquaculture, Faculty of Oceanography, Fisheries, Food Sciences and Aquaculture, Federico Villarreal National University. Lima 1500, Peru. https://orcid.org/0000-0001-6930-5601
- Carlos Enrique Chinchay-Barragán Professional School of Food Engineering, Faculty of Fisheries and Food Engineering, Universidad Nacional del Callao. Callao, Peru. https://orcid.org/0000-0003-0053-4865
- Luis Adolfo Perez-Ton Professional School of Food Engineering, Faculty of Fisheries and Food Engineering, Universidad Nacional del Callao. Callao, Peru. https://orcid.org/0000-0001-7040-1502
- María del Pilar Rojas-Rueda School of Human Medicine, Universidad Norbert Wiener, Lima, Peru. https://orcid.org/0000-0003-3812-7579
- Carlos Rafael Amaranto-Cortez Professional School of Human Medicine, Norbert Wiener University, Lima, Peru. https://orcid.org/0009-0006-2331-5015
- Jacinto Joaquín Vértiz-Osores Environmental Assessment and Biological Diversity Laboratory, Bioprosgen Research Group, Universidad Nacional Tecnológica de Lima Sur, Lima, Peru. https://orcid.org/0000-0003-2774-1207
- Obert Marín-Sánchez Environmental Assessment and Biological Diversity Laboratory, Bioprosgen Research Group, Universidad Nacional Tecnológica de Lima Sur, Lima, Peru. https://orcid.org/0000-0003-2912-1191
