1. Performance of a Recirculation Type Integrated Collector Drying Chamber (ICDC) Solar Dryer
- Author
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Kamaruddin Abdullah, Nining Dyah, and Yefri Chan
- Subjects
Solar dryer ,Materials science ,solar dryer ,Moisture ,Waste management ,pneumatic conveyor ,Pulp and paper industry ,specific energy ,Energy(all) ,Drying time ,Specific energy ,Relative humidity ,drying efficiency ,Total energy ,Water content - Abstract
A novel recirculation type ICDC solar dryer has been designed, constructed and tested. The solar dryer was comprised of a feed hopper, centrifugal blower, pneumatic conveyor and a transparent structure acting as drying chamber containing a hopper with vortex at the top. Test with 104 kg of rough rice indicated that the drying time required to reduce the moisture content of rough rice from 28.4% wet basis (wb) to the final moisture of 14.3%wb was 5 hrs. During the test the drying temperature was kept constant at 50.1°C and relative humidity (RH) of 21.73%. The required power for the pneumatic conveyor was 581 W with total energy input of 210.7 MJ including LPG and solar radiation. The resulting drying efficiency was 22.4% with specific energy of 15.2 MJ/kg of water evaporated. Another test using 200 kg with initial moisture content (m.c.) of 27.6%wb.of rough rice have shown that the required drying time to achieve the final moisture of 14.3% was 8 hrs. During the test the drying temperature was kept at 46.9 C, and RH of 21.7%. The drying efficiency was 31.7% with specific energy of 10.7 MJ/kg water evaporated.
- Published
- 2015