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Investigation of adsorption kinetics of CH4 and CO2 on shale exposure to supercritical CO2

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  • Qin, Chao
  • Jiang, Yongdong
  • Zuo, Shuangying
  • Chen, Shiwan
  • Xiao, Siyou
  • Liu, Zhengjie

Abstract

The adsorption kinetics behaviors of CH4 and CO2 on shale are closely related to CO2 sequestration and enhanced shale gas recovery (CS-ESGR). To investigate the influence of supercritical CO2 (ScCO2) exposure on adsorption kinetics behaviors of CH4 and CO2 on shale, X-ray diffraction analysis, low-pressure N2 adsorption and adsorption kinetics experiment of CH4 and CO2 were conducted on raw and ScCO2-treated (10 day/16MPa/40 °C) shale collected from the Ordos Basin. Adsorption rates of CH4 and CO2 by shale were fitted by different adsorption kinetics models, and results indicate that Bangham adsorption (BA) model exhibits a better fitting effect (R2>0.99) than Pseudo-first-order (PFO) and Pseudo-second-order (PSO) kinetic model and Elovich adsorption (EA) model. After ScCO2 exposure, the adsorption rate of CH4 and CO2 by shale decreased, which may be mainly caused by the decrease of high energy adsorption sites of shale. In addition, the adsorption rate of CO2 by shale is significantly higher than that of CH4, and the influence of pressure on the adsorption rates of CH4 and CO2 is remarkably different, suggesting that the CS-ESGR project should be divided into three stages: Fracturing-Recovery, Replacement-Recovery-Sequestration, and Replacement-Sequestration-Recovery. This study provides a reference for future optimization design of CS-ESGR.

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  • Qin, Chao & Jiang, Yongdong & Zuo, Shuangying & Chen, Shiwan & Xiao, Siyou & Liu, Zhengjie, 2021. "Investigation of adsorption kinetics of CH4 and CO2 on shale exposure to supercritical CO2," Energy, Elsevier, vol. 236(C).
    • Handle: RePEc:eee:energy:v:236:y:2021:i:c:s0360544221016583
    DOI: 10.1016/j.energy.2021.121410
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    Cited by:

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    2. Liu, Huang & Yao, Desong & Yang, Bowen & Li, Huashi & Guo, Ping & Du, Jianfen & Wang, Jian & Yang, Shuokong & Wen, Lianhui, 2022. "Experimental investigation on the mechanism of low permeability natural gas extraction accompanied by carbon dioxide sequestration," Energy, Elsevier, vol. 253(C).
    3. Qin, Chao & Jiang, Yongdong & Zhou, Junping & Zuo, Shuangying & Chen, Shiwan & Liu, Zhengjie & Yin, Hong & Li, Ye, 2022. "Influence of supercritical CO2 exposure on water wettability of shale: Implications for CO2 sequestration and shale gas recovery," Energy, Elsevier, vol. 242(C).
    4. Wu, Jian & Shen, Luming & Huang, Pengyu & Gan, Yixiang, 2023. "Selective adsorption and transport of CO2–CH4 mixture under nano-confinement," Energy, Elsevier, vol. 273(C).
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    6. Xie, Weidong & Wang, Hua & Vandeginste, Veerle & Chen, Si & Gan, Huajun & Wang, Meng & Yu, Zhenghong, 2023. "Thermodynamic and kinetic affinity of CO2 relative to CH4 and their pressure, temperature and pore structure sensitivity in the competitive adsorption system in shale gas reservoirs," Energy, Elsevier, vol. 277(C).
    7. Qin, Chao & Jiang, Yongdong & Fu, Yong & Chen, Shiwan & Song, Xiao & Zuo, Shuangying & Wu, Daoyong & Zou, Niuniu, 2023. "Thermodynamic characteristics of high-pressure CH4 adsorption on longmaxi shale subjected to supercritical CO2-water saturation," Energy, Elsevier, vol. 263(PC).
    8. Wu, Jian & Gan, Yixiang & Shi, Zhang & Huang, Pengyu & Shen, Luming, 2023. "Pore-scale lattice Boltzmann simulation of CO2-CH4 displacement in shale matrix," Energy, Elsevier, vol. 278(PB).
    9. Chauhan, P.R. & Kaushik, S.C. & Tyagi, S.K., 2022. "Current status and technological advancements in adsorption refrigeration systems: A review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 154(C).

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