Experimental and Theoretical Study of the Performance of Solar Water Heaters with Gravity-Assisted Heat Pipes
Mohamed, M., Abdel-Baky, M., Ghonim, T., Soliman, K. (2020). Experimental and Theoretical Study of the Performance of Solar Water Heaters with Gravity-Assisted Heat Pipes. EKB Journal Management System, 43(1), 51-61. doi: 10.21608/erjm.2020.72116
Mousa M. Mohamed; Mostafa A. Abdel-Baky; Tarek A. Ghonim; Karima A. Soliman. "Experimental and Theoretical Study of the Performance of Solar Water Heaters with Gravity-Assisted Heat Pipes". EKB Journal Management System, 43, 1, 2020, 51-61. doi: 10.21608/erjm.2020.72116
Mohamed, M., Abdel-Baky, M., Ghonim, T., Soliman, K. (2020). 'Experimental and Theoretical Study of the Performance of Solar Water Heaters with Gravity-Assisted Heat Pipes', EKB Journal Management System, 43(1), pp. 51-61. doi: 10.21608/erjm.2020.72116
Mohamed, M., Abdel-Baky, M., Ghonim, T., Soliman, K. Experimental and Theoretical Study of the Performance of Solar Water Heaters with Gravity-Assisted Heat Pipes. EKB Journal Management System, 2020; 43(1): 51-61. doi: 10.21608/erjm.2020.72116

Experimental and Theoretical Study of the Performance of Solar Water Heaters with Gravity-Assisted Heat Pipes

ERJ. Engineering Research Journal
Article 5, Volume 43, Issue 1, January 2020, Page 51-61  XML PDF (656.05 K)
Document Type: Original Article
DOI: 10.21608/erjm.2020.72116
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Authors
Mousa M. Mohamed1; Mostafa A. Abdel-Baky1; Tarek A. Ghonim1; Karima A. Soliman2
1Staff members, Faculty of Eng., Menoufia University, Egypt
2Faculty of Eng., Omar Al-Mukhtar University, Libya
Abstract
The objective of this work is to study the performance of solar water heaters using heat pipes
for heat transfer, from absorber plate to water tank, with two different types of working fluids
(Ethanol and Acetone) and different numbers of heat pipes. Additionally, a theoretical investigation
is conducted to predict the performance of the solar water heaters. These systems have been
designed and fabricated with the same dimensions and materials. The hourly variation of the
absorber plate temperature, the water storage tank temperature and solar radiation intensity are
measured. Accordingly, the stored energy and the efficiency has been calculated. The results showed
that, a good agreement has been achieved between the experimental and theoretical results. The
operation point of the conventional system begins at the operating start while the operation point of
the thermosyphon systems starts when the absorber plates temperatures reaches the boiling point of
the working fluid. The maximum water temperatures gained of the forced convection system and
thermosyphon system charged with ethanol and acetone were 66 C, 67.8 C, and 64.6 C,
respectively while those of theoretical calculations were around 69.2 C, 69 C and 69.3 C,
respectively. In addition, the maximum value of the actual efficiency of conventional system was
ranged between 47~53% while that of theoretical calculation was between 50~53%. The
experimental maximum efficiency of thermosyphon systems was around 55% at the case of
installing 14 heat pipes charged with acetone and theoretical efficiency was 55% for same the case.
The thermosyphon system gives better performance than forced convection system, because
thermosyphon system does not consume electricity. Performance of the thermosyphon system using
acetone as working fluid was better than the performance of the thermosyphon system using ethanol
and the increase of the heat pipes number improves performance.
Keywords
Solar water heater; flat plate solar collector; forced convection water heater; heat pipes water heater; theoretical model
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