Effects of roof angle, inlet gap size and drying time on dryer mass flow rate and moisture content in a chimney-dependent solar crop dryer using design of experiment (DOE) | ||
Al-Qadisiyah Journal for Engineering Sciences | ||
Volume 15, Issue 1, March 2022, Pages 1-8 PDF (660.36 K) | ||
Document Type: Research Paper | ||
DOI: 10.30772/qjes.v15i1.802 | ||
Authors | ||
Anthony Agyei-Agyemang* 1; Peter Oppong Tawiah1; John Kwasi Afriyie2; Michael Kweku Commeh3 | ||
1Department of Mechanical Engineering, College of Engineering, Kwame Nkrumah University of Science and Technology, Kumasi, Kumasi, Ghana. | ||
2Department of Mechanical Engineering, Kumasi Technical University, Kumasi, +233, Ghana. | ||
3Technology Consultancy Centre, College of Engineering, Kwame Nkrumah University of Science and Technology, Kumasi, +233, Ghana. | ||
Abstract | ||
A chimney dependent solar crop dryer (CDSCD) was designed and developed. Design of Experiments (DOE) was used to carry out experiments using a statistical three level non randomized factorial experimental design in Minitab statistical software version 19.0. The effect of three drying parameters, roof angle (º), Inlet gap size (mm), and time (h) on dryer inlet mass flow rate (kg/s) and moisture content (%) were studied. The regression results showed that there was a satisfactory fit of the model variability for both dryer inlet mass flow rate and crop moisture content. The p-value for each parameter was less than 0.005, which is statistically significant. The R-squared (R2) value was 94.67% for inlet air mass flow rate study and 99.72% for moisture content. It was observed that the optimal values for achieving a low moisture content response (≤ 24%) were roof angle of 81º, inlet to outlet cross-sectional area ratio of 1.08768:1 and a minimum drying time of 24 hours while the optimal values for achieving high inlet air mass flow rate (≥ 0.357 kg/s) were roof angle of 51º, inlet to outlet cross-sectional area ratio of 1.08768:1 and a minimum drying time of 5 hours. The findings could be implemented and utilized for achieving optimum ventilation and drying performances to refine dryer (CDSCD) design. | ||
Keywords | ||
Solar dryer; Roof angle; Inlet gap size; Multilevel factorial design; Moisture content; Ghan | ||
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