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Integrated hydrogen liquefaction process with steam methane reforming by using liquefied natural gas cooling system

Author

Listed:
  • Yang, Jae-Hyeon
  • Yoon, Younggak
  • Ryu, Mincheol
  • An, Su-Kyung
  • Shin, Jisup
  • Lee, Chul-Jin

Abstract

The objective of this study is to develop a conceptual design for a hydrogen liquefaction process at a 300 tonnes per day scale. The process uses cold energy from the vaporization of liquefied natural gas and is integrated with a steam methane reforming process. This study is motivated by the fact that a cryogenic cooling system requires a large amount of energy to liquefy hydrogen. Moreover, sea water is mostly used as the heating medium for the vaporization of liquefied natural gas at terminals.

Suggested Citation

  • Yang, Jae-Hyeon & Yoon, Younggak & Ryu, Mincheol & An, Su-Kyung & Shin, Jisup & Lee, Chul-Jin, 2019. "Integrated hydrogen liquefaction process with steam methane reforming by using liquefied natural gas cooling system," Applied Energy, Elsevier, vol. 255(C).
    • Handle: RePEc:eee:appene:v:255:y:2019:i:c:s0306261919315272
    DOI: 10.1016/j.apenergy.2019.113840
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    Citations

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    Cited by:

    1. Lee, Ju-Sung & Cherif, Ali & Yoon, Ha-Jun & Seo, Seung-Kwon & Bae, Ju-Eon & Shin, Ho-Jin & Lee, Chulgu & Kwon, Hweeung & Lee, Chul-Jin, 2022. "Large-scale overseas transportation of hydrogen: Comparative techno-economic and environmental investigation," Renewable and Sustainable Energy Reviews, Elsevier, vol. 165(C).
    2. Sihwan Park & Wonjun Noh & Jaedeuk Park & Jinwoo Park & Inkyu Lee, 2022. "Efficient Heat Exchange Configuration for Sub-Cooling Cycle of Hydrogen Liquefaction Process," Energies, MDPI, vol. 15(13), pages 1-19, June.
    3. Uwitonze, Hosanna & Chaniago, Yus Donald & Lim, Hankwon, 2022. "Novel integrated energy-efficient dual-effect single mixed refrigerant and NGLs recovery process for small-scale natural gas processing plant," Energy, Elsevier, vol. 254(PA).
    4. Yoon, Ha-Jun & Seo, Seung-Kwon & Lee, Chul-Jin, 2022. "Multi-period optimization of hydrogen supply chain utilizing natural gas pipelines and byproduct hydrogen," Renewable and Sustainable Energy Reviews, Elsevier, vol. 157(C).
    5. Yadav, Deepak & Banerjee, Rangan, 2020. "Net energy and carbon footprint analysis of solar hydrogen production from the high-temperature electrolysis process," Applied Energy, Elsevier, vol. 262(C).
    6. Faramarzi, Saman & Gharanli, Sajjad & Ramazanzade Mohammadi, Mohsen & Rahimtabar, Amin & J. Chamkha, Ali, 2023. "Energy, exergy, and economic analysis of an innovative hydrogen liquefaction cycle integrated into an absorption refrigeration system and geothermal energy," Energy, Elsevier, vol. 282(C).
    7. Teng, Junjie & Wang, Kai & Zhu, Shaolong & Bao, Shiran & Zhi, Xiaoqin & Zhang, Xiaobin & Qiu, Limin, 2023. "Comparative study on thermodynamic performance of hydrogen liquefaction processes with various ortho-para hydrogen conversion methods," Energy, Elsevier, vol. 271(C).
    8. Fengyuan Yan & Jinliang Geng & Guangxin Rong & Heng Sun & Lei Zhang & Jinxu Li, 2023. "Optimization and Analysis of an Integrated Liquefaction Process for Hydrogen and Natural Gas Utilizing Mixed Refrigerant Pre-Cooling," Energies, MDPI, vol. 16(10), pages 1-18, May.
    9. Bi, Yujing & Ju, Yonglin, 2022. "Design and analysis of an efficient hydrogen liquefaction process based on helium reverse Brayton cycle integrating with steam methane reforming and liquefied natural gas cold energy utilization," Energy, Elsevier, vol. 252(C).
    10. Riaz, Amjad & Qyyum, Muhammad Abdul & Min, Seongwoong & Lee, Sanggyu & Lee, Moonyong, 2021. "Performance improvement potential of harnessing LNG regasification for hydrogen liquefaction process: Energy and exergy perspectives," Applied Energy, Elsevier, vol. 301(C).

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