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Three dimensional experimental and numerical investigations into hydrate dissociation in sandy reservoir with dual horizontal wells

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  • Feng, Jing-Chun
  • Wang, Yi
  • Li, Xiao-Sen
  • Li, Gang
  • Zhang, Yu

Abstract

In this study, both three dimensional experimental and numerical investigations of hydrate dissociation have been carried out by depressurization in conjunction with warm water stimulation using dual horizontal wells. Hydrate has been synthesized in the porous sediment in a CHS (Cubic Hydrate Simulator). The results of gas and water production, hydrate dissociation, and temperature distribution by numerical simulation are in good agreement with the experimental results. The results show that hydrate dissociation evolves by means of ablation with double-moving boundary. One dissociation interface moves from the injection well to the neighboring regions, and the other dissociation interface spreads from the boundary to the central reservoir. The assessment of the energy ratio shows that the depressurization in conjunction with warm water stimulation using dual horizontal wells is a promising method for hydrate dissociation. Sensitivity analyses show that raising the injection temperature causes a sharply decline of energy ratio, although it increases the gas production rate at a certain time. Additionally, reducing the intrinsic permeability of the reservoir can decrease the energy ratio and increase the time for the completion of hydrate dissociation.

Suggested Citation

  • Feng, Jing-Chun & Wang, Yi & Li, Xiao-Sen & Li, Gang & Zhang, Yu, 2015. "Three dimensional experimental and numerical investigations into hydrate dissociation in sandy reservoir with dual horizontal wells," Energy, Elsevier, vol. 90(P1), pages 836-845.
    • Handle: RePEc:eee:energy:v:90:y:2015:i:p1:p:836-845
    DOI: 10.1016/j.energy.2015.07.110
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    5. Wang, Yi & Feng, Jing-Chun & Li, Xiao-Sen & Zhan, Lei & Li, Xiao-Yan, 2018. "Pilot-scale experimental evaluation of gas recovery from methane hydrate using cycling-depressurization scheme," Energy, Elsevier, vol. 160(C), pages 835-844.
    6. Zhao, Ermeng & Hou, Jian & Ji, Yunkai & Liu, Yongge & Bai, Yajie, 2021. "Enhancing gas production from Class II hydrate deposits through depressurization combined with low-frequency electric heating under dual horizontal wells," Energy, Elsevier, vol. 233(C).
    7. Feng, Jing-Chun & Wang, Yi & Li, Xiao-Sen, 2016. "Energy and entropy analyses of hydrate dissociation in different scales of hydrate simulator," Energy, Elsevier, vol. 102(C), pages 176-186.
    8. Li, Bo & Liu, Sheng-Dong & Liang, Yun-Pei & Liu, Hang, 2018. "The use of electrical heating for the enhancement of gas recovery from methane hydrate in porous media," Applied Energy, Elsevier, vol. 227(C), pages 694-702.
    9. Foroutan, Shima & Mohsenzade, Hanie & Dashti, Ali & Roosta, Hadi, 2021. "New insights into the evaluation of kinetic hydrate inhibitors and energy consumption in rocking and stirred cells," Energy, Elsevier, vol. 218(C).
    10. Wei, Rupeng & Xia, Yongqiang & Wang, Zifei & Li, Qingping & Lv, Xin & Leng, Shudong & Zhang, Lunxiang & Zhang, Yi & Xiao, Bo & Yang, Shengxiong & Yang, Lei & Zhao, Jiafei & Song, Yongchen, 2022. "Long-term numerical simulation of a joint production of gas hydrate and underlying shallow gas through dual horizontal wells in the South China Sea," Applied Energy, Elsevier, vol. 320(C).
    11. Wang, Yi & Feng, Jing-Chun & Li, Xiao-Sen & Zhang, Yu, 2017. "Experimental investigation of optimization of well spacing for gas recovery from methane hydrate reservoir in sandy sediment by heat stimulation," Applied Energy, Elsevier, vol. 207(C), pages 562-572.
    12. Chong, Zheng Rong & Zhao, Jianzhong & Chan, Jian Hua Rudi & Yin, Zhenyuan & Linga, Praveen, 2018. "Effect of horizontal wellbore on the production behavior from marine hydrate bearing sediment," Applied Energy, Elsevier, vol. 214(C), pages 117-130.
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