A review of challenges with using the natural gas system for hydrogen

Martin, Paul; Ocko, Ilissa B.; Esquivel‐Elizondo, Sofia; Kupers, Roland; Cebon, David; Baxter, Tom; Hamburg, Steven P.

doi:10.1002/ese3.1861

Energy Science & Engineering

2024

DOI: 10.1002/ese3.1861

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A review of challenges with using the natural gas system for hydrogen

Paul Martin,

Ilissa B. Ocko,

Sofia Esquivel‐Elizondo

et al.

Abstract: Hydrogen, as an energy carrier, is attractive to many stakeholders based on the assumption that the extensive global network of natural gas infrastructure can be repurposed to transport hydrogen as part of a zero‐carbon energy future. Therefore, utility companies and governments are rapidly advancing efforts to pilot blending low‐carbon hydrogen into existing natural gas systems, many with the goal of eventually shifting to pure hydrogen. However, hydrogen has fundamentally different physical and chemical prop… Show more

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Cited by 4 publications

References 53 publications

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A Trojan horse for climate policy: Assessing carbon lock-ins through the Carbon Capture and Storage-Hydrogen-Nexus in Europe

Faber,

Busch,

Lefstad

2025

Energy Research & Social Science

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A Trojan horse for climate policy: Assessing carbon lock-ins through the Carbon Capture and Storage-Hydrogen-Nexus in Europe

Faber,

Busch,

Lefstad

2025

Energy Research & Social Science

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Simulation and analysis of leakage characteristics in hydrogen-blended natural gas pipelines

Ouyang,

Sun,

et al. 2025

International Journal of Hydrogen Energy

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The Role of Gas Hydrates in Storing Natural Gas-Hydrogen Blends for Coupling Power-to-X and Decarbonization

Krishna,

Mahant,

Robustillo

et al. 2024

Energy Fuels

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Power-to-X (PtX) will play a pivotal role in decarbonizing gas-based industries by enabling the conversion of renewable electricity into various forms of energy carriers such as hydrogen and synthetic fuels. By integrating gas hydrates as a storage medium, PtX can effectively link renewable energy sources with the gas-based industry, facilitating a smoother transition toward a low-carbon economy. Hydrogen (H 2 ) storage is a pressing issue due to its low density and the high costs of compression and liquefaction. This study explores the potential of gas hydrate technology for large-scale H 2 storage, particularly in blends with natural gas (H 2 −NG). The research delves into the thermodynamic and kinetic properties of H 2 −NG hydrates, demonstrating that gas hydrates could offer a viable alternative to traditional storage methods. Experimental and simulation studies indicate that the inclusion of gaseous promoters like methane (CH 4 ) and propane (C 3 H 8 ) can enhance the H 2 storage capacity within hydrates. The study outlines the formation conditions and stability of various hydrate structures, emphasizing the role of promoters in facilitating H 2 enclathration. Importantly, the study highlights the practical and feasible pathway for the energy transition by integrating H 2 storage into the natural gas infrastructure. The economic analysis underscores the cost-effectiveness of hydrate-based storage compared to conventional methods, considering factors such as energy efficiency and capital expenditure. This study proposes a detailed process for forming, storing, and transporting H 2 −NG hydrate pellets, highlighting the potential for integrating this method into existing natural gas infrastructures. The findings suggest that, with further optimization, gas hydrate technology could play a crucial role in the H 2 economy, offering an efficient and sustainable solution for H 2 storage, thus supporting global efforts toward carbon neutrality and clean energy adoption.

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A review of challenges with using the natural gas system for hydrogen

Cited by 4 publications

References 53 publications

A Trojan horse for climate policy: Assessing carbon lock-ins through the Carbon Capture and Storage-Hydrogen-Nexus in Europe

A Trojan horse for climate policy: Assessing carbon lock-ins through the Carbon Capture and Storage-Hydrogen-Nexus in Europe

Simulation and analysis of leakage characteristics in hydrogen-blended natural gas pipelines

The Role of Gas Hydrates in Storing Natural Gas-Hydrogen Blends for Coupling Power-to-X and Decarbonization

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