Physicochemical stability of pineapple suspensions: the integrated effects of enzymatic processes and homogenization by shear

The pineapple ( Ananas comosus ) is an important tropical fruit in the world market. Its pulp has significant nutritional value while the peel and the core, in spite of being high in dietary fibre and nutrients, are generally considered to be agro-industrial waste. The aim of this research was to ev...

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Bibliographic Details
Published in:Journal of food science and technology 2022-04, Vol.59 (4), p.1610-1618
Main Authors: Cardona, Lina María, Cortés-Rodríguez, Misael, Galeano, Francisco Javier Castellanos, Arango, Julio C.
Format: Article
Language:English
Subjects:
Agricultural wastes
Ananas comosus
Chemistry
Chemistry and Materials Science
Chemistry/Food Science
Dependent variables
Dietary fiber
Enzymes
Factorial design
Food Science
Fruits
High pressure
Homogenization
Independent variables
Industrial wastes
Nutrients
Nutrition
Nutritive value
Optimization
Original
Original Article
Pineapples
Plant extracts
Pulp
Stability
Zeta potential
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Summary:The pineapple ( Ananas comosus ) is an important tropical fruit in the world market. Its pulp has significant nutritional value while the peel and the core, in spite of being high in dietary fibre and nutrients, are generally considered to be agro-industrial waste. The aim of this research was to evaluate the effect that the integrated enzymatic and shear homogenization processes have on the physicochemical stability of pineapple base suspensions (pulp, core, and peel extract). Initially, an enzymatic hydrolysis process was evaluated with a completely randomized factorial design. Independent variables: incubation time (t inc ) (1–4 h) and [enzyme] (0–200 ppm). Dependent variables: viscosity (μ) and particle sizes (D [3;2] and D [4;3] ). The results showed a reduction of (μ) (70.7%), D [3;2] (54.2%), and D [4;3] (61.8%) for the optimized treatment (t inc  = 3.2 h and [enzyme] = 200 ppm) compared to the control (t = 0, without enzyme). The effect of the integrated enzymatic treatment with a serial homogenization process was subsequently evaluated. Independent variables: high-speed homogenization time (t 1 ) (15–20 min), recirculation time in high pressure homogenizer (t 2 ) (3–7 min), and arabic gum (AG) (0.6–1.0%). Dependent variables: total suspension solids (TS S ), zeta potential (ζ), μ, spectral stability index (R), D [3;2] , and D [4;3] . The application of the integrated processes of enzymatic treatment and serial homogenization was more effective to be able to obtain a stable pineapple-based suspension. The experimental optimization of multiple responses defined t 1  = 16.4 min, t 2  = 7 min, AG = 0.98%, and TSs = 15.7 ± 0.5%, ζ = − 23.1 ± 0.4 mV, µ = 221 ± 11 cP, D [3;2]  = 56.8 ± 2 µm and D [4;3]  = 120.6 ± 4 µm and R = 0.58 ± 0.02 were obtained.
ISSN:0022-1155
0975-8402
DOI:10.1007/s13197-021-05172-8