Heat and Mass Transfer/Waerme- und Stoffuebertragung, cilt.60, sa.4, ss.665-675, 2024 (SCI-Expanded)
This study investigates the drying of ginger cubes using three different techniques: electrohydrodynamic drying, electrohydrodynamic-hot air drying, and hot air drying. The main objective is to assess how these drying methods affect drying times, effective diffusion coefficients, color, and microstructure. Additionally, the study includes fitting ten different thin-layer models to the experimental data for mathematical analysis. It was observed that increasing temperature and voltage values led to a reduction in the drying times of the ginger samples. After conducting statistical tests, it was determined that the Midilli et al. and Wang and Singh models were the most suitable for describing the experimental drying curves. Effective diffusion coefficient values increased with the rise in temperature and voltage values. The L* values of the dried ginger samples decreased due to temperature and voltage applications. Notably, ginger samples dried using the electrohydrodynamic method exhibited better preservation of their original appearance, particularly in terms of microstructure and starch particle integrity, compared to other drying methods. The findings of the study suggest that integrating electrohydrodynamic technology with hot air drying reduces overall drying time. This innovative approach shows promise for producing high-quality end products in the future.