Finding the best configuration for a solar air heater by design and analysis of experiment

•The theoretical and experimental study on a solar air heaters with different configurations were performed.•Design and analysis of experiment was used to analyze the data from experiment.•Agreement between theoretical and empirical results, verified the exactness of the experimental design.•The hig...

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Bibliographic Details
Published in:Energy conversion and management 2015-08, Vol.100, p.131-137
Main Authors: Nowzari, Raheleh, Mirzaei, Nima, Aldabbagh, L.B.Y.
Format: Article
Language:English
Subjects:
Air heaters
Computer programs
Design and analysis of experiment
Design engineering
Efficiency
Mass flow rate
Packages
Perforated cover
Software
Solar air heater
Solar collectors
Thermal efficiency
Wire mesh layers
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Summary:•The theoretical and experimental study on a solar air heaters with different configurations were performed.•Design and analysis of experiment was used to analyze the data from experiment.•Agreement between theoretical and empirical results, verified the exactness of the experimental design.•The highest efficiency was obtained from double pass solar collector with quarter perforated 10D cover. An experimental investigation was performed on a solar air heater with different configurations. The configurations included testing the single- and double-pass solar collectors with normal and perforated covers and with wire mesh layers instead of an absorber plate. Design and analysis of experiment was used to develop a model for the tested solar air heater and IBM’s Statistical Package for the Social Sciences software was used to analyze the model. Strong agreement was found between the results obtained from the theoretical and experimental investigations. Both methods suggested the same configuration for attaining the highest thermal efficiency from the system, i.e., a double-pass solar collector with a quarter-perforated cover with 3-cm hole-to-hole spacing and a mass flow rate of 0.032kg/s.
ISSN:0196-8904
1879-2227
DOI:10.1016/j.enconman.2015.04.058