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Thermochemical heat storage performances of fluidized black CaCO3 pellets under direct concentrated solar irradiation

Author

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  • Zheng, Hangbin
  • Liu, Xianglei
  • Xuan, Yimin
  • Song, Chao
  • Liu, Dachuan
  • Zhu, Qibin
  • Zhu, Zhonghui
  • Gao, Ke
  • Li, Yongliang
  • Ding, Yulong

Abstract

Conventional solar thermochemical heat storage based on indirect surface-heating usually suffers from high heat losses and low solar-chemical efficiency. Here, a different solar thermochemical heat storage system based on direct solar illumination on fluidized black CaCO3 pellets is proposed. A Computational Fluid Dynamics-Discrete Element Method (CFD-DEM) model considering irradiation ray tracing, granular flow, heat and mass transfer, and chemical reaction, is built. Black CaCO3 pellets are fabricated via a facile template mixing method, and the solar absorptance is enhanced to 63.9% from 27.9% of traditional pure CaCO3. Effects of gas velocity and irradiative flux on thermochemical heat storage performance in a fluidized volumetric bed are investigated by incorporating measured kinetic and solar absorptance properties of designed black CaCO3 pellets. The peak solar-chemical efficiency reaches a value higher than 43% benefiting from enhanced solar absorptance, higher gas velocity and irradiative flux. This work guides the design of the high-efficiency direct solar thermochemical heat storage system.

Suggested Citation

  • Zheng, Hangbin & Liu, Xianglei & Xuan, Yimin & Song, Chao & Liu, Dachuan & Zhu, Qibin & Zhu, Zhonghui & Gao, Ke & Li, Yongliang & Ding, Yulong, 2021. "Thermochemical heat storage performances of fluidized black CaCO3 pellets under direct concentrated solar irradiation," Renewable Energy, Elsevier, vol. 178(C), pages 1353-1369.
    • Handle: RePEc:eee:renene:v:178:y:2021:i:c:p:1353-1369
    DOI: 10.1016/j.renene.2021.07.026
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    Cited by:

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    2. Han, X.C. & Xu, H.J. & Zhao, C.Y., 2022. "Design and performance evaluation of multi-layered reactor for calcium-based thermochemical heat storage with multi-physics coupling," Renewable Energy, Elsevier, vol. 195(C), pages 1324-1340.
    3. Wang, Chengcheng & Yang, Hui & Tong, Lige & Nie, Binjian & Zou, Boyang & Guo, Wei & Wang, Li & Ding, Yulong, 2023. "Numerical investigation of a shell-and-tube thermochemical reactor with thermal bridges: Structurale optimization and performance evaluation," Renewable Energy, Elsevier, vol. 206(C), pages 1212-1227.
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    5. Li, J.B. & Wang, P. & Liu, D.Y., 2022. "Optimization on the gradually varied pore structure distribution for the irradiated absorber," Energy, Elsevier, vol. 240(C).

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