Numerical Study on the Enhancement of the Thermal Efficiency of a Household Gas Water Heater and Verification with Experimental Results

Document Type : Research Article

Authors

Department of Mechanical Engineering, University of Tabriz, Tabriz, Iran.

Abstract

In this research for the aim of optimizing the gas consumption, increasing the thermal efficiency of a household gas water heater has been investigated numerically. The optimal design and configuration of the baffles in the middle tube of the gas water heater prevents the quick exit of the exhaust gases and consequently increases the retention time of the hot gases inside the middle tube and reduces the wasting of their thermal energy. The combustion process in the gas water heater is a chain process and completing this process occurs along its path in the middle tube. Therefore for obtaining the maximum thermal efficiency, the numerical analysis of the combustion process and designing and configuration of the baffles inside the middle tube have been carried out and conducted simultaneously. The Ansys Fluent computational fluid dynamics code has been employed for the computational simulation of the combustion of the gas, the heat transfer from the contents of the middle tube into the water tank and distribution of the velocity of the exhaust gases along their path inside the middle tube and around the baffles. Computational simulation of the problem under investigation has been carried out by considering different geometries and configurations of the baffles along the path of the exhaust gases. Numerical results show that the mass fraction of the methane gas and the carbon dioxide in the exhaust gases is negligible and consequently all of the methane gas has been consumed. The numerical results have been verified by the experimental results.

Keywords

References

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Amirkabir Journal of Mechanical Engineering
Volume 54, Issue 5
August 2022
Pages 1199-1220

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