Effect of catalytic infrared radiation drying parameters on drying kinetics, bioactive compounds, and functional properties of cactus pear cladodes

Effect of catalytic infrared radiation drying parameters on drying kinetics, bioactive compounds, and functional properties of cactus pear cladodes

The influence of catalytic infrared radiation (CIR) on drying characteristics, biocompounds, and functional properties of cactus pear cladode slices (CPCS) was evaluated. Two experiments were conducted. Experiment I varied the LP (liquefied petroleum) gas supply pressure (LPGSP) from 70 to 110 mbar...

Full description

Saved in:
Bibliographic Details
Main Authors: Néstor Manuel Ortiz-Rodríguez, Mayra Denise Herrera, Jorge A. Zegbe, Luis Roberto Reveles-Torres, Nicolás Iván Román-Roldán
Format: Article
Language:English
Published: Elsevier 2025-06-01
Series:Applied Food Research
Subjects:
Antioxidant capacity
Inhibition of digestive enzymes
Modeling
Non-digestible carbohydrates
Opuntia ficus-indica l. mill
Phenolic compounds
Online Access:http://www.sciencedirect.com/science/article/pii/S2772502225001775
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:The influence of catalytic infrared radiation (CIR) on drying characteristics, biocompounds, and functional properties of cactus pear cladode slices (CPCS) was evaluated. Two experiments were conducted. Experiment I varied the LP (liquefied petroleum) gas supply pressure (LPGSP) from 70 to 110 mbar at a 38.0 cm-fixed distance between the emitter and the CPCS. Experiment II varied the distance between CPCS and CIR-emitter at 50 mbar of LPGSP. The Page's model showed the best fit (R²=0.99) to describe the drying kinetics. In Experiment I, 80 mbar gas supply pressure and 70 min of drying (2615.51 ± 9.65 W/m²) was the best condition, with higher non-digestible carbohydrates content. Meanwhile, scavenging of ABTS and DPPH were higher at 100 or 110 mbar. In Experiment II, the best distance between CPCS and CIR-emitter was set at 14.0 cm, however, phytochemical losses were observed. Non-digestible carbohydrates, condensed tannins (5.7 mg CAE/g), and saponins (5.0 µg OAE/g) were higher at 24.0 cm, while carotenoids where enhanced at 38.0 cm. Furthermore, 14.0 and 38.0 cm had the highest DPPH and α-amylase, and ABTS and pancreatic lipase inhibition, respectively. The exploratory results establish a foundation for optimization of CIR technology in drying processes, as a promising alternative to reduce drying time while maintaining functional properties, which are essential for human health. Future perspectives include scaling up CIR technology for industrial applications, as it offers significant opportunities to enhance energy efficiency, reduce post-harvest waste, and contribute to food security and sustainability in the agri-food sector.
ISSN:2772-5022

Similar Items