ABSTRACT
An active mix-mode solar dryer powered by wind generator and a passive
solar dryer both integrated with and without C3H8O3
(glycerol) as thermal storage was designed, fabricated and evaluated with a
pre-treated sliced potato. The dryer was designed to operate in a low sunshine
belt of the southern Nigerian climate characterized by its low solar radiation
intensity, hence the integration of thermal storage material. The study offered
the total dryer performance analysis including the exergy, energy, and drying
kinetics of the dried product. The main
objective was to develop an active dryer system using only renewable energy (solar
and wind energies). The results presented showed that the developed mix-mode
solar dryer can save between 9- 16 hrs of drying time compared to ordinary sun drying method
when drying 2 mm thick potato slices with the moisture content reduced from
64.2 % to 8.6 11.6 % wet basis. A shorter drying time of 4h hrs was recorded with solar
dryer integrated with wind-powered axial fan and thermal storage while drying
with passive solar dryer without thermal storage presented a longer drying time
of 25 hrs. Dipping the potato in a salt
solution for 30 seconds before drying quickens the drying rate of the potato
compared to dipping it for 60, 90 seconds or blanching for 30 -90 seconds.
Additionally, potato pre-treated with salt solution showed very attractive bright
colour compared to blanch or none pre-treated potato. During the experimental periods, the mean
radiation intensity ranged from 10 - 626 W/m2, the ambient
temperature range was 24 oC - 50 oC and humidity of about 9 - 52 %. . Under these operating conditions, the
average drying efficiency was 28.59% - 29.14 %. In terms of energy utilization for drying purpose, solar
dryer, integrated with wind-powered axial fan only, showed higher drying efficiency
of 80 % while drying with passive solar dryer with thermal storage presented
lower energy efficiency. The
total energy consumption for drying ranged between 435102.2 kJ and 498040.2
kJ while the specific energy consumption was 28.46 to 36.86 kWh/kg. The exergy efficiency ranged from 14.5 – 80.9 %
during the sunshine hours.
MICHAEL, U (2023). Developed Wind-Powered Active Solar Dryer Integrated With Glycerin As Thermal Storage For Drying Sliced Potato.. Mouau.afribary.org: Retrieved Dec 24, 2024, from https://repository.mouau.edu.ng/work/view/developed-wind-powered-active-solar-dryer-integrated-with-glycerin-as-thermal-storage-for-drying-sliced-potato-7-2
UNIVERSITY, MICHAEL. "Developed Wind-Powered Active Solar Dryer Integrated With Glycerin As Thermal Storage For Drying Sliced Potato." Mouau.afribary.org. Mouau.afribary.org, 24 May. 2023, https://repository.mouau.edu.ng/work/view/developed-wind-powered-active-solar-dryer-integrated-with-glycerin-as-thermal-storage-for-drying-sliced-potato-7-2. Accessed 24 Dec. 2024.
UNIVERSITY, MICHAEL. "Developed Wind-Powered Active Solar Dryer Integrated With Glycerin As Thermal Storage For Drying Sliced Potato.". Mouau.afribary.org, Mouau.afribary.org, 24 May. 2023. Web. 24 Dec. 2024. < https://repository.mouau.edu.ng/work/view/developed-wind-powered-active-solar-dryer-integrated-with-glycerin-as-thermal-storage-for-drying-sliced-potato-7-2 >.
UNIVERSITY, MICHAEL. "Developed Wind-Powered Active Solar Dryer Integrated With Glycerin As Thermal Storage For Drying Sliced Potato." Mouau.afribary.org (2023). Accessed 24 Dec. 2024. https://repository.mouau.edu.ng/work/view/developed-wind-powered-active-solar-dryer-integrated-with-glycerin-as-thermal-storage-for-drying-sliced-potato-7-2