Field synergy analysis of the micro-cylindrical combustor with a step

•A micro-cylindrical combustor is simulated under various inlet pressures.•Outer wall temperature and outlet temperature are obtained.•Field Synergy Principle is employed to investigate the synergy degree.•Combustion efficiency of two kinds of micro-cylindrical combustors is compared. In order to ob...

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Bibliographic Details
Published in:Applied thermal engineering 2016-01, Vol.93, p.83-89
Main Authors: E, Jiaqiang, Zuo, Wei, Liu, Haojie, Peng, Qingguo
Format: Article
Language:English
Subjects:
Combustion efficiency
Field Synergy Principle
Inlet pressure
Mathematical analysis
Micro combustor
Outlets
Thermophotovoltaics
Vectors (mathematics)
Wall temperature
Walls
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Summary:•A micro-cylindrical combustor is simulated under various inlet pressures.•Outer wall temperature and outlet temperature are obtained.•Field Synergy Principle is employed to investigate the synergy degree.•Combustion efficiency of two kinds of micro-cylindrical combustors is compared. In order to obtain high power density and performance efficiency, it is important for a micro combustor to achieve a high and uniform wall temperature distribution in the micro thermophotovoltaic (TPV) system. In this work, a new method of finding a proper inlet pressure is proposed. Then, Field Synergy Principle is employed to investigate the synergy degree between the velocity vector and temperature gradient in the micro-cylindrical combustor under various inlet pressures. The results indicate that the temperature distribution along the wall of the micro combustor is more uniform, and the mean wall temperature is increased due to the increase of synergy degree at an inlet pressure of 0.08 MPa. Finally, the combustion efficiency and outlet temperature of two kinds of micro-cylindrical combustors with the largest synergy degree and without are compared, showing that the micro-cylindrical combustor with the largest synergy degree is larger than that without it.
ISSN:1359-4311
DOI:10.1016/j.applthermaleng.2015.09.028