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Blue hydrogen production from natural gas reservoirs: A review of application and feasibility

journal contribution
submitted on 2024-01-29, 09:26 and posted on 2024-01-29, 09:28 authored by Osama Massarweh, Maha Al-khuzaei, Manal Al-Shafi, Yusuf Bicer, Ahmad S. Abushaikha
Recently, interest in developing H2 strategies with carbon capture and storage (CCS) technologies has surged. Considering that, this paper reviews recent literature on blue H2, a potential low-carbon, short-term solution during the H2 transition period. Three key aspects were the focus of this paper. First, it presents the processes used for blue H2 production. Second, it presents a detailed comparison between blue H2 and natural gas as fuels and energy carriers. The third aspect focuses on CO2 sequestration in depleted natural gas reservoirs, an essential step for implementing blue H2. Globally, ∼ 75% of H2 is produced using steam methane reforming, which requires CCS to obtain blue H2. Currently, blue H2 needs to compete with other advancing technologies such as green H2, solar power, battery storage, etc. Compared to natural gas and liquefied natural gas, blue H2 gas results in lower CO2 emissions since CCS is applied. However, transporting liquefied and compressed blue H2 entails higher energy, economic, and environmental costs. CCS must be appropriately implemented to produce blue H2 successfully. Due to their established capacity to trap hydrocarbons over geologic time scales, depleted natural gas reservoirs are regarded as a viable option for CCS. Such a conclusion is supported by several simulation studies and field projects in many countries. Additionally, there is much field experience and knowledge on the injection and production performance of natural gas reservoirs. Therefore, using the existing site infrastructure, converting these formations into storage reservoirs is undemanding.

Other Information

Published in: Journal of CO2 Utilization
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Open Access funding provided by the Qatar National Library.



  • English



Publication Year

  • 2023

License statement

This Item is licensed under the Creative Commons Attribution 4.0 International License.

Institution affiliated with

  • Hamad Bin Khalifa University
  • College of Science and Engineering - HBKU

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