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Cyclic thermal performance analysis of a traditional Single-Layered and of a novel Multi-Layered Packed-Bed molten salt Thermocline Tank

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  • Li, Meng-Jie
  • Qiu, Yu
  • Li, Ming-Jia

Abstract

In the study, a transient, two-dimensional and axisymmetric model of the packed-bed thermocline tank is developed. Based on the model, the cyclic thermal performance of a traditional Single-Layered and of a novel Multi-Layered Packed-Bed molten salt Thermocline Tank (SLPBTT, MLPBTT) are analyzed. First, the analysis of cyclic thermal performance of SLPBTT shows the performance can be enhanced by reducing the retention thermocline thickness. Second, this is the first time for a detailed investigation of the expanding and the shortening effects on thermocline thickness at the interface between two kinds of filler. In addition, a novel MLPBTT is designed utilizing the above interface effects for improving the performance by controlling thermocline expansion. Finally, the studies on the performance of MLPBTTs adopting three fillers (quartzite rock, cast iron, and high-temperature concrete) with different heights present that the useful energy can be increased while thermal efficiency will be reduced with the increasing cast iron's height. An optimized MLPBTT shows a significant improvement in the useful energy of 10.5% and a small drop in thermal efficiency of 2.1% in discharging process compared with those of SLPBTT using the quartzite rock. The results can be beneficial for the design and optimization of PBTT.

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  • Li, Meng-Jie & Qiu, Yu & Li, Ming-Jia, 2018. "Cyclic thermal performance analysis of a traditional Single-Layered and of a novel Multi-Layered Packed-Bed molten salt Thermocline Tank," Renewable Energy, Elsevier, vol. 118(C), pages 565-578.
    • Handle: RePEc:eee:renene:v:118:y:2018:i:c:p:565-578
    DOI: 10.1016/j.renene.2017.11.038
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    Cited by:

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    13. Elfeky, Karem Elsayed & Mohammed, Abubakar Gambo & Wang, Qiuwang, 2022. "Thermo-economic evaluation of PCM layer thickness change on the performance of the hybrid heat storage tank for concentrating solar power plants," Energy, Elsevier, vol. 253(C).
    14. Zhu, Yanlong & Lu, Jie & Yuan, Yuan & Wang, Fuqiang & Tan, Heping, 2020. "Effect of radiation on the effective thermal conductivity of encapsulated capsules containing high-temperature phase change materials," Renewable Energy, Elsevier, vol. 160(C), pages 676-685.
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    16. Calderón-Vásquez, Ignacio & Cortés, Eduardo & García, Jesús & Segovia, Valentina & Caroca, Alejandro & Sarmiento, Cristóbal & Barraza, Rodrigo & Cardemil, José M., 2021. "Review on modeling approaches for packed-bed thermal storage systems," Renewable and Sustainable Energy Reviews, Elsevier, vol. 143(C).
    17. Wang, Wei & Shuai, Yong & Qiu, Jun & He, Xibo & Hou, Yicheng, 2022. "Effect of steady-state and unstable-state inlet boundary on the thermal performance of packed-bed latent heat storage system integrated with concentrating solar collectors," Renewable Energy, Elsevier, vol. 183(C), pages 251-266.
    18. Li, Meng-Jie & Li, Ming-Jia & Xue, Xiao-Dai & Li, Dong, 2022. "Optimization and design criterion of the shell-and-tube thermal energy storage with cascaded PCMs under the constraint of outlet threshold temperature," Renewable Energy, Elsevier, vol. 181(C), pages 1371-1385.
    19. Yuan, Fan & Li, Ming-Jia & Qiu, Yu & Ma, Zhao & Li, Meng-Jie, 2019. "Specific heat capacity improvement of molten salt for solar energy applications using charged single-walled carbon nanotubes," Applied Energy, Elsevier, vol. 250(C), pages 1481-1490.

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