# Environmental and energetic exergetic sustainability of stevia leaf drying in a PVT indirect solar dryer with variable airflow and tray levels

**Authors:** Abdallah Elshawadfy Elwakeel, Awad Ali Tayoush Oraiath, Abubakr Tantawy, András Székács, Omar Saeed, Mohamed Hamdy Eid, Samy F. Mahmoud, Huda Aljumayi, Rahmah N. AlQthanin, Said Elshahat Abdallah, Ibraheem A. H. Yousif, Aml Abubakr Tantawy

PMC · DOI: 10.1038/s41598-025-24654-9 · 2026-01-28

## TL;DR

This study evaluates the drying of stevia leaves using a solar dryer, analyzing energy efficiency and sustainability under different airflow rates and tray positions.

## Contribution

The study introduces a novel analysis of PVT solar dryer performance with variable airflow and tray levels for stevia leaf drying.

## Key findings

- Lower trays dried faster with higher airflow, achieving 5.7% final moisture content.
- Thermal efficiency of the solar collector reached 55.7% at higher airflow.
- Exergy efficiency of the drying room improved to 37.89% at lower airflow.

## Abstract

During the current study, Stevia rebaudiana leaves were dried using a photovoltaic thermal–indirect solar dryer (PVT-ISD), and the influence of tray position inside the drying chamber was assessed using six trays under two airflow rates (0.08 and 0.13 m3/s) with a uniform layer thickness of 3 cm. The fastest drying occurred on the lowest tray, closest to the hot air inlet, particularly at the higher airflow rate, achieving a final moisture content of 5.7%. Energy analysis showed that thermal efficiency of the solar collector reached up to 55.7% at the higher airflow. Exergy analysis supported this improvement, with maximum exergy efficiency of the solar collector increasing to 14.68%. Conversely, the drying room performed better at the lower airflow, reaching a maximum exergy efficiency of 37.89%. Sustainability indicators revealed slight improvements in the solar collector but declines in the drying room at higher airflow. Environmental indicators further demonstrated enhanced performance of the solar collector at higher airflow, with maximum reductions observed in the environmental destruction coefficient (19.6%), environmental impact factor (20.6%), and environmental effect factor (20.4%).

## Linked entities

- **Species:** Stevia rebaudiana (taxon 55670)

## Full-text entities

- **Diseases:** diabetes (MESH:D003920), ISD (MESH:D000092130), obesity (MESH:D009765), PV (MESH:D011087), PVT (MESH:D020886), EEF (MESH:D018876), OAD (MESH:D004618)
- **Chemicals:** sucrose (MESH:D013395), PV (MESH:D010404), steviol glycosides (MESH:C012043), water (MESH:D014867), -DSPP-2024-174 (-), DC (MESH:D003841)
- **Species:** Stevia (genus) [taxon 55669], Stevia rebaudiana (species) [taxon 55670], Musa acuminata (banana, species) [taxon 4641]

## Figures

10 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12855874/full.md

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Source: https://tomesphere.com/paper/PMC12855874