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Local heat transfer enhancement by recirculation flows for temperature gradient reduction in a tubular SOFC

Zezhi Zeng, Changkun Hao, Bingguo Zhao, Yuping Qian, Weilin Zhuge, Yuqing Wang, Yixiang Shi, Yangjun Zhang

2021International Journal of Green Energy26 citationsDOI

Abstract

The large temperature gradient in solid oxide fuel cells (SOFCs) severely degrades their operation reliability. In this study, we have developed a numerical model to examine the effect of local heat transfer enhancement on the temperature gradient reduction in a counter-flow type micro-tubular SOFC. The local heat transfer is enhanced by placing turbulators in the SOFC air channel. We show that turbulators in air channels could induce recirculation flow, which increases the local convective heat transfer coefficient and facilitates the heat dissipation from electrodes to air stream. A spatial temperature gradient diagram is proposed to analyze the influences of turbulator radii, locations and pitches on the cell axial temperature gradient reduction. The turbulator effectively decreases the largest temperature gradient and reduces the region where the temperature gradient is higher than 30℃/cm. We also compare the temperature profile and air-side pressure drop between tubular SOFCs with turbulators and thin air channels. The SOFC with turbulators is demonstrated to achieve comparable heat transfer performance but at a lower air-side pressure drop than that with a thin air channel. Our work demonstrates the effectiveness of local heat transfer enhancement on SOFC temperature gradient reduction and proposes a new diagram to quantitatively evaluate the impact of the thermal management methods through local heat transfer enhancement.

Topics & Concepts

TurbulatorPressure dropTemperature gradientHeat transferMaterials scienceMechanicsHeat transfer coefficientPressure gradientHeat transfer enhancementThermodynamicsConvective heat transferTurbulenceReynolds numberMeteorologyPhysicsAdvancements in Solid Oxide Fuel CellsFuel Cells and Related MaterialsElectrocatalysts for Energy Conversion
Local heat transfer enhancement by recirculation flows for temperature gradient reduction in a tubular SOFC | Litcius