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Proposal for a low CO2 emission power generation system utilizing oceanic methane hydrate

Author

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  • Maruyama, Shigenao
  • Deguchi, Koji
  • Chisaki, Masazumi
  • Okajima, Junnosuke
  • Komiya, Atsuki
  • Shirakashi, Ryo

Abstract

A power generation system with low carbon dioxide (CO2) emission is proposed. This system simultaneously performs power generation, methane hydrate utilization, and carbon dioxide capture and storage (CCS). In this system, CO2 resulting from the combustion is recovered by compressed seawater. A thermal stimulation method was selected to dissociate the oceanic methane hydrate. CO2-dissolved seawater is heated by the exhausted gas and injected into the hydrate layer to dissociate the methane hydrate. By means of process simulation, a feasibility study of the proposed system was conducted, during which a power generation system with approximately 30% thermal efficiency and above 90% CO2 recovery rate was achieved. Moreover, to quantify the heat loss during the injection of hot seawater into the hydrate layer, we conducted a numerical simulation of the internal pipe flow and determined that the appropriate pipe diameter can be selected in terms of heat and pressure loss through the pipe. In addition, the outlet temperature can be predicted by the thermal conductivity and the thickness of the insulation material. An appropriate insulation material can be selected to obtain the desired outlet temperature.

Suggested Citation

  • Maruyama, Shigenao & Deguchi, Koji & Chisaki, Masazumi & Okajima, Junnosuke & Komiya, Atsuki & Shirakashi, Ryo, 2012. "Proposal for a low CO2 emission power generation system utilizing oceanic methane hydrate," Energy, Elsevier, vol. 47(1), pages 340-347.
  • Handle: RePEc:eee:energy:v:47:y:2012:i:1:p:340-347
    DOI: 10.1016/j.energy.2012.09.034
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    References listed on IDEAS

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    Cited by:

    1. Chen, Lin & Sasaki, Hirotoshi & Watanabe, Tsutomu & Okajima, Junnosuke & Komiya, Atsuki & Maruyama, Shigenao, 2017. "Production strategy for oceanic methane hydrate extraction and power generation with Carbon Capture and Storage (CCS)," Energy, Elsevier, vol. 126(C), pages 256-272.
    2. Roostaie, M. & Leonenko, Y., 2020. "Gas production from methane hydrates upon thermal stimulation; an analytical study employing radial coordinates," Energy, Elsevier, vol. 194(C).
    3. Chen, Lin & Feng, Yongchang & Kogawa, Takuma & Okajima, Junnosuke & Komiya, Atsuki & Maruyama, Shigenao, 2018. "Construction and simulation of reservoir scale layered model for production and utilization of methane hydrate: The case of Nankai Trough Japan," Energy, Elsevier, vol. 143(C), pages 128-140.
    4. Feng, Jing-Chun & Wang, Yi & Li, Xiao-Sen & Li, Gang & Chen, Zhao-Yang, 2015. "Production behaviors and heat transfer characteristics of methane hydrate dissociation by depressurization in conjunction with warm water stimulation with dual horizontal wells," Energy, Elsevier, vol. 79(C), pages 315-324.
    5. Katsaprakakis, Dimitris Al. & Christakis, Dimitris G. & Stefanakis, Ioannis & Spanos, Petros & Stefanakis, Nikos, 2013. "Technical details regarding the design, the construction and the operation of seawater pumped storage systems," Energy, Elsevier, vol. 55(C), pages 619-630.
    6. Wakamatsu, Hiroki & Aruga, Kentaka, 2013. "The impact of the shale gas revolution on the U.S. and Japanese natural gas markets," Energy Policy, Elsevier, vol. 62(C), pages 1002-1009.
    7. Suzuki, Kenya & Wada, Ryota & Konno, Yoshihiro & Hiekata, Kazuo & Nanjo, Takashi & Nagakubo, Sadao, 2024. "Impact of epistemic uncertainty on tradeoff in model-based decision support for methane hydrate development system design," Applied Energy, Elsevier, vol. 356(C).
    8. Wang, Kang & Chang, Yuanjiang & Chen, Guoming & Sun, Baojiang & Sun, Huanzhao & Li, Hao & Dai, Yongguo, 2022. "Three-dimensional mechanical behaviors of casing during gas production from marine hydrate reservoirs using depressurization," Energy, Elsevier, vol. 247(C).
    9. Feng, Yongchang & Chen, Lin & Suzuki, Anna & Kogawa, Takuma & Okajima, Junnosuke & Komiya, Atsuki & Maruyama, Shigenao, 2019. "Numerical analysis of gas production from layered methane hydrate reservoirs by depressurization," Energy, Elsevier, vol. 166(C), pages 1106-1119.
    10. Zhou, Kaile & Yang, Shanlin & Shen, Chao & Ding, Shuai & Sun, Chaoping, 2015. "Energy conservation and emission reduction of China’s electric power industry," Renewable and Sustainable Energy Reviews, Elsevier, vol. 45(C), pages 10-19.
    11. Lee, Seungro & Ha, Heonrok & Dunn-Rankin, Derek & Kwon, Oh Chae, 2017. "Effects of pressure on structure and extinction limits of counterflow nonpremixed water-laden methane/air flames," Energy, Elsevier, vol. 134(C), pages 545-553.
    12. Feng, Yongchang & Chen, Lin & Kanda, Yuki & Suzuki, Anna & Komiya, Atsuki & Maruyama, Shigenao, 2021. "Numerical analysis of gas production from large-scale methane hydrate sediments with fractures," Energy, Elsevier, vol. 236(C).
    13. Lee, Seungro & Padilla, Rosa & Dunn-Rankin, Derek & Pham, Trinh & Kwon, Oh Chae, 2015. "Extinction limits and structure of counterflow nonpremixed H2O-laden CH4/air flames," Energy, Elsevier, vol. 93(P1), pages 442-450.

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