Abstract
• Evaluates the performance of a biomass-fueled vertical corn dryer using candlenut shell biomass as an alternative energy source. • Investigates continuous and discontinuous drying modes at 45°C, 50°C, and 55°C, analyzing temperature distribution, moisture reduction, energy balance, and drying efficiency. • Continuous drying at 55°C achieves the highest efficiency (68.82%), while discontinuous drying enhances energy savings (66.29%) through intermittent heating. • Demonstrates the sustainability and cost-effectiveness of biomass combustion for agricultural drying applications. • Suggests future research on automated drying control systems and alternative biomass fuels to further optimize drying performance and efficiency. • Contributes to the advancement of renewable energy utilization in post-harvest processing for sustainable agricultural practices. This study investigates the thermal performance and energy efficiency of a biomass-fueled vertical dryer utilizing candlenut shell biomass for corn drying. The objective is to evaluate drying behavior under continuous and discontinuous operation modes at different temperature settings. A custom-built dryer was developed and tested at 45°C, 50°C, and 55°C, and energy input, drying time, and efficiency were recorded. Statistical analyses, including paired t-tests, were conducted to examine the significance of operational differences. Results show that continuous drying at 50°C and 55°C significantly improves drying efficiency, reaching above 66%, and reduces drying time compared to discontinuous modes. Candlenut shells performed well as a renewable fuel, offering stable combustion and minimal ash production, outperforming traditional fuels such as rice husks and corn cobs in similar drying conditions. Energy analyses indicated balanced energy use, while future work should address post-drying quality characteristics and automation. These findings suggest that candlenut shells are a viable, sustainable alternative for efficient post-harvest thermal processing, particularly in rural agro-industrial settings.
Concepts :
Citations by Year
| Year | Count |
|---|---|
| 2025 | 3 |