Volume 25: Accelerated Energy Innovations and Emerging Technologies

The Effect of Changing PCM Distribution on Thermal Performance of Latent Heat Storage Yuanji Li, Rukun Hu, Xiaohu Yang, Jinyue Yan

https://doi.org/10.46855/energy-proceedings-10072

Abstract

In previous studies on thermal performance of solid-liquid phase change thermal energy storage (TES), it could be found that the lower phase change material (PCM) of TES was difficult to melt due to the influence of natural convection. Therefore, many scholars improved the overall thermal performance by enhancing the heat transfer in the lower region, increasing the distribution of the lower fins, increasing the length of the lower fins, or changing the porosity of the lower metal foam to improve the lower heat transfer. However, it had not been found that by changing the ratio of the upper and lower PCM to improve the heat storage performance. Therefore, this paper designed ten cases to study the effect of different ratios of the upper and lower PCM on the heat storage performance and finally found that the case 2 performed best, and the full melting time is 17240 s, reduced 39.05% compared with 28290 s of case 6.

Keywords improve heat transfer, shell-and-tube heat storage tube, numerical simulation

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