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Pressure and temperature preservation techniques for gas-hydrate-bearing sediments sampling

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  • Zhu, Haiyan
  • Liu, Qinqyou
  • Deng, Jingen
  • Wang, Guorong
  • Xiao, Xiaohua
  • Jiang, Zhenglu
  • Zhang, Deyu

Abstract

Natural gas hydrates (NGH) can only exist under low temperature (generally below 10 °C) and high pressure (generally above 3.8 MPa). The prerequisite for investigations of NGH sediments is a sampling technique that prevents its volatiles during recovery. In this paper, some pressure and temperature preservation techniques for NGH sampling are investigated and analyzed intensively. The Chinese pressure and temperature corers including tight rock core sampler, pressure tight piston corer, wireline coring sampler and hydraulic pressure and temperature preservation (HPTP) corer are introduced in detail. Two pressure chambers (pressure chamber I and pressure chamber II) are designed with passive temperature preservation technique; using pressure accumulator (PA) cylinder pressure preservation technique, the pressure chamber was applied on the South China Sea at the water depth of 1352 m in 2006. Laboratory tests and the sea application show that the pressure preservation technique of the PA cylinder and the passive temperature preservation technique are successful for NGH sediments sampling. The main focus of future developments for NGH samplers in China is given, which offers the reference to the optimal design for the structure of NGH samplers and the new sampler development.

Suggested Citation

  • Zhu, Haiyan & Liu, Qinqyou & Deng, Jingen & Wang, Guorong & Xiao, Xiaohua & Jiang, Zhenglu & Zhang, Deyu, 2011. "Pressure and temperature preservation techniques for gas-hydrate-bearing sediments sampling," Energy, Elsevier, vol. 36(7), pages 4542-4551.
  • Handle: RePEc:eee:energy:v:36:y:2011:i:7:p:4542-4551
    DOI: 10.1016/j.energy.2011.03.053
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    References listed on IDEAS

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    Cited by:

    1. Jiang, Xingxing & Li, Shuxia & Zhang, Lina, 2012. "Sensitivity analysis of gas production from Class I hydrate reservoir by depressurization," Energy, Elsevier, vol. 39(1), pages 281-285.
    2. Luo, Yongjiang & Sun, Yushi & Li, Lijia & Wang, Xing & Qin, Chaozhong & Liu, Lele & Liu, Changling & Wu, Dongyu, 2022. "Image-based pore-network modeling of two-phase flow in hydrate-bearing porous media," Energy, Elsevier, vol. 252(C).
    3. Li, Cong & Xie, Heping & Gao, Mingzhong & Chen, Ling & Zhao, Le & Li, Cunbao & Wu, Nianhan & He, Zhiqiang & Li, Jianan, 2021. "Novel designs of pressure controllers to enhance the upper pressure limit for gas-hydrate-bearing sediment sampling," Energy, Elsevier, vol. 227(C).
    4. Zhao, Jiafei & Yu, Tao & Song, Yongchen & Liu, Di & Liu, Weiguo & Liu, Yu & Yang, Mingjun & Ruan, Xuke & Li, Yanghui, 2013. "Numerical simulation of gas production from hydrate deposits using a single vertical well by depressurization in the Qilian Mountain permafrost, Qinghai-Tibet Plateau, China," Energy, Elsevier, vol. 52(C), pages 308-319.
    5. Bhade, Piyush & Phirani, Jyoti, 2015. "Gas production from layered methane hydrate reservoirs," Energy, Elsevier, vol. 82(C), pages 686-696.
    6. Guo, Da & Xie, Heping & Gao, Mingzhong & Li, Jianan & He, Zhiqiang & Chen, Ling & Li, Cong & Zhao, Le & Wang, Dingming & Zhang, Yiwei & Fang, Xin & Liu, Guikang & Zhou, Zhongya & Dai, Lin, 2024. "In-situ pressure-preserved coring for deep oil and gas exploration: Design scheme for a coring tool and research on the in-situ pressure-preserving mechanism," Energy, Elsevier, vol. 286(C).

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