Y. Andoha, P., K. Sekyere, C., Amoabenga, K., K. Dzebrea, D. (2022). Performance assessment of a solar powered egg incubator with a backup heater. , 15(2), 112-120. doi: 10.30772/qjes.v15i2.821
P. Y. Andoha; C. K. K. Sekyere; K. O. Amoabenga; D. E. K. Dzebrea. "Performance assessment of a solar powered egg incubator with a backup heater". , 15, 2, 2022, 112-120. doi: 10.30772/qjes.v15i2.821
Y. Andoha, P., K. Sekyere, C., Amoabenga, K., K. Dzebrea, D. (2022). 'Performance assessment of a solar powered egg incubator with a backup heater', , 15(2), pp. 112-120. doi: 10.30772/qjes.v15i2.821
Y. Andoha, P., K. Sekyere, C., Amoabenga, K., K. Dzebrea, D. Performance assessment of a solar powered egg incubator with a backup heater. , 2022; 15(2): 112-120. doi: 10.30772/qjes.v15i2.821

Performance assessment of a solar powered egg incubator with a backup heater

Al-Qadisiyah Journal for Engineering Sciences
Volume 15, Issue 2, June 2022, Pages 112-120    PDF (951.63 K)
Document Type: Research Paper
DOI: 10.30772/qjes.v15i2.821
Authors
P. Y. Andoha1; C. K. K. Sekyere* 2; K. O. Amoabenga1; D. E. K. Dzebrea1
1Department of Mechanical Engineering, Kwame Nkrumah University of Science and Technology (KNUST), Kumasi, Ghana
2Department of Mechanical Engineering, Kwame Nkrumah University of Science and Technology (KNUST), Kumasi, Ghana; and The Brew-Hammond Energy Centre, Kwame Nkrumah University of Science and Technology (KNUST), Kumasi, Ghana
Abstract
This study presents the performance of a novel solar-powered incubator which uses water as thermal mass. Energy absorbed by the water is transferred to the incubator chamber by a fan powered with a 12 V battery. To enable adequate control of chamber temperature and humidity, a ProNem Mini sensor and controller (ESM-3723) were incorporated into the design. The thermal mass was sized adequately to supply energy for night operations as well as periods of inclement weather. The incubator was tested with and without load. Field measurements were obtained using UT330A USB datalogger. Tests under no load conditions gave an average temperature range of 36 to 42.9°C and relative humidity of 53 % to 70.5 %. Incubation tests showed average chamber temperature and relative humidity ranges of 35 ℃ to 41 ℃ and 45 % to 61 %. Candling test gave percentage fertility and hatchability of 60% and 56%. A cost-benefit analysis gave a capital cost of 617.32 USD, incubation cost of 69 cents per chick and simple payback period of 15 months. The performance indices obtained make the proposed design a suitable architecture to build upon in order to accelerate the promotion of livelihood empowerment through poultry farming in Ghana.
Keywords
Incubator; Guinea fowl egg; Temperature range; Humidity range; Candling test
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