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Thermo-physical properties of CO2 mixtures and their impacts on CO2 capture, transport and storage: Progress since 2011

Author

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  • Li, Hailong
  • Dong, Beibei
  • Yu, Zhixin
  • Yan, Jinyue
  • Zhu, Kai

Abstract

The knowledge of accurate thermo-physical properties is crucial for the development and deployment of CO2 capture, transport and storage (CCS). The progress on the experimental data and theoretical models regarding thermo-physical properties of CO2 mixtures as well as the property impact on the design and operation of different CCS processes has been updated. The newly published experimental data since 2011 have been collected and reviewed based on which the new knowledge gaps regarding measurements have been identified. There have also been some advanced models proposed recently, which have shown good performances. The collected model performances don’t show there exist a model that is superior to others; but they still provide a good guideline regarding model selection. However, developing more-complex models as the complexity may not necessarily improve the accuracy when empirical parameters were included and well-tuned. By comparing the importance of the properties and the accuracy of existing models, suggestions were given regarding the development of property models that should be prioritized.

Suggested Citation

  • Li, Hailong & Dong, Beibei & Yu, Zhixin & Yan, Jinyue & Zhu, Kai, 2019. "Thermo-physical properties of CO2 mixtures and their impacts on CO2 capture, transport and storage: Progress since 2011," Applied Energy, Elsevier, vol. 255(C).
    • Handle: RePEc:eee:appene:v:255:y:2019:i:c:s030626191931476x
    DOI: 10.1016/j.apenergy.2019.113789
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    Cited by:

    1. Lozano-Martín, Daniel & Moreau, Alejandro & Chamorro, César R., 2022. "Thermophysical properties of hydrogen mixtures relevant for the development of the hydrogen economy: Review of available experimental data and thermodynamic models," Renewable Energy, Elsevier, vol. 198(C), pages 1398-1429.
    2. Wang, Likun & Bliznakov, Stoyan & Isseroff, Rebecca & Zhou, Yuchen & Zuo, Xianghao & Raut, Aniket & Wang, Wanhua & Cuiffo, Michael & Kim, Taejin & Rafailovich, Miriam H., 2020. "Enhancing proton exchange membrane fuel cell performance via graphene oxide surface synergy," Applied Energy, Elsevier, vol. 261(C).
    3. Liao, Gaoliang & E, Jiaqiang & Zhang, Feng & Chen, Jingwei & Leng, Erwei, 2020. "Advanced exergy analysis for Organic Rankine Cycle-based layout to recover waste heat of flue gas," Applied Energy, Elsevier, vol. 266(C).

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