Mohammed Saleh, M., Hamdoon, O. (2021). An Experimental Study to Verify the Thermal Performance of a Solar Air Heater Used for Space Heating and Ventilation. Alustath, 26(2), 187-200. doi: 10.33899/rengj.2020.129055.1073
Mohammed Ali Mohammed Saleh; Omar Mohammed Hamdoon. "An Experimental Study to Verify the Thermal Performance of a Solar Air Heater Used for Space Heating and Ventilation". Alustath, 26, 2, 2021, 187-200. doi: 10.33899/rengj.2020.129055.1073
Mohammed Saleh, M., Hamdoon, O. (2021). 'An Experimental Study to Verify the Thermal Performance of a Solar Air Heater Used for Space Heating and Ventilation', Alustath, 26(2), pp. 187-200. doi: 10.33899/rengj.2020.129055.1073
Mohammed Saleh, M., Hamdoon, O. An Experimental Study to Verify the Thermal Performance of a Solar Air Heater Used for Space Heating and Ventilation. Alustath, 2021; 26(2): 187-200. doi: 10.33899/rengj.2020.129055.1073

An Experimental Study to Verify the Thermal Performance of a Solar Air Heater Used for Space Heating and Ventilation

Al-Rafidain Engineering Journal (AREJ)
Article 17, Volume 26, Issue 2, October 2021, Pages 187-200    PDF (2.09 M)
Document Type: Research Paper
DOI: 10.33899/rengj.2020.129055.1073
Authors
Mohammed Ali Mohammed Saleh1; Omar Mohammed Hamdoon* 2
1Mechatronics Engineering Department, Collage of Engineering, University of Mosul
2Mechanical Department College of Engineering University of Mosul
Abstract
This study included an experimental analysis for the purpose of improving the performance of a conventional double-pass solar air heater by replacing the flat absorber plate of the conventional model with a corrugated plate and adding steel wool in the lower passage of the air heater while keeping all dimensions constant for the two models. The two systems were operated together under the same conditions and at a constant airflow (0.0416 kg/s). The results showed that the thermal efficiency and the temperature of the air exiting from the solar heater can be improved using the improvements that have been indicated, as the highest monthly average of thermal efficiency in March 2020 was (67.07%) and (49.7%) for the improved and conventional systems, respectively. The results also showed that the improved model retains the heat gained from solar radiation for a longer period compared to the conventional model at a constant solar radiation intensity. These improvements also contributed to a clear increase in the temperature of the air leaving the system, as the average difference in the temperature of the air entering and leaving the system reached in February to (23.34°C) and (19.28°C) for the improved and conventional systems, respectively. The results also proved that the improvements over the conventional system led to a reduction in the amount of heat lost from the solar air heater.
Keywords
Solar Air Heater; Absorber corrugated plate; Steel Wool
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