Modeling, environmental and economic analysis of drying of orange slice in an automatic indirect mixed mode solar dryer
Abdallah Elshawadfy Elwakeel, Awad Ali Tayoush Oraiath, Wajdi Aissa Mohammed Abdurraziq, Ahmed Elbeltagi, András Székács, Omar Saeed, Mohamed Hamdy Eid, Mohammad S. AL-Harbi, Atef Fathy Ahmed, Aml Abubakr Tantawy

TL;DR
A solar-powered dryer with automatic control was developed to efficiently dry orange slices, reducing energy use and drying time while supporting sustainability goals.
Contribution
The novel automatic temperature-responsive control system in the solar dryer improves efficiency and prevents over-drying.
Findings
4 mm orange slices dried faster and achieved the lowest final moisture content compared to thicker slices.
The 8 mm slices provided the highest annual output and CO₂ reduction, with a short energy payback time.
The system generated significant economic savings, with a payback period of about one month.
Abstract
This study presents an indirect mixed-mode solar dryer (IMMSD) integrated with a photovoltaic system with an automatic, temperature-responsive control system that automatically switches between natural and forced convection, enhancing efficiency and reducing energy use. Unlike previous fixed systems, it prevents over-drying and spoilage. The cost-effective, solar-powered design suits off-grid communities. By integrating drying kinetics with economic and environmental assessments, the system supports sustainability goals. The study also examines how slice thicknesses and tray positions within the drying room affect orange drying kinetics. Then, the IMMSD was used to dry orange slices under real conditions at Aswan University, Egypt, in January 2025, aiming to evaluate performance across different slice thicknesses (4, 6, and 8 mm) and tray positions (lower, middle, and upper levels). The…
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Taxonomy
TopicsFood Drying and Modeling · Heat Transfer Mechanisms · Greenhouse Technology and Climate Control
