Publication Type : Journal Article
Source : Energy, 192, pp. 116697 (Q1, IF – 7.147), DOI: https://doi.org/10.1016/j.energy.2019.116697
Url : https://doi.org/10.1016/j.energy.2019.116697
Campus : Amaravati
School : School of Engineering
Department : English
Verified : No
Year : 2020
Abstract : Drying uniformity and flexibility in product selection are the primary concern for the end-user in solar drying application. Hence, the present work attempts to determine the user flexibility to choose among different agro-products and simultaneously ensure the drying uniformity inside an active multi-tray indirect-mode solar cabinet dryer. The work considers unripe untreated banana and bitter gourd with an average initial moisture content of 180% (db) and 1328% (db), respectively. The present work tries to assess the influence of a tray-sequencing pattern on the drying behavior at different combinations of flake thickness (0.002 0.004 m), multi-tray spacing (0.1 0.15 m), tray mesh size (0.01 0.015 m), and mass flow rate (0.015 0.03 kg/s). For all the tested combinations, the proposed tray sequencing aided to achieve drying uniformity for banana flakes within 10 h and bitter gourd by 18 h. Energy utilization ratio (45.3% 47.9%) and exergy loss decreased with an increase in mass flow rate. Among the tested combination, 0.03 kg/s, 0.002 m thickness, 0.15 m spacing, and 0.01 m mesh size resulted in higher average energy efficiency (15.34%), and exergy efficiency (60.3 94.1%). Further investigations on the proposed dryer are essential to bring out a suitable standardization to attain an upper limit among the agro-products.
Cite this Research Publication : Arun, K.R., Kunal, G., Srinivas, M., Sujith Kumar, C.S., Mohanraj, M., Jayaraj, S., 2020, "Drying of untreated Musa nendra and Momordica charantia in a forced convection solar cabinet dryer with thermal storage," Energy, 192, pp. 116697 (Q1, IF – 7.147), DOI: https://doi.org/10.1016/j.energy.2019.116697