Green hydrogen production using proton membrane electrolysis of clean drinking water

Søgaard-Deakin, Jasmin; Xydis, George

doi:10.1680/jenes.23.00071

Cited by 2 publications

(1 citation statement)

References 29 publications

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“…Karavel et al [28] assessed the potential of green hydrogen production in Turkey using solar energy, and evaluated multiple technologies to demonstrate that investments in hydrogen generation assets should guide future investments in this economic sector. Søgaard-Deakin and Xydis [29] focused on lessons learnt from the Danish production of green hydrogen from clean drinking water via proton membrane electrolysis, while Sorrenti et al [30] studied the viability of green hydrogen generation and energy islands.…”

Section: Green Hydrogen Production: Current Trends and Costsmentioning

confidence: 99%

Is Greece Ready for a Hydrogen Energy Transition?—Quantifying Relative Costs in Hard to Abate Industries

Nanaki,

Kiartzis,

Xydis

2024

Energies

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During the past few years, hydrogen use has come to be considered as an alternative energy carrier in a future decarbonized world. Many developed nations are undergoing a shift towards low-carbon energy sources, driven by the excessive reliance on fossil fuels and the detrimental effects of climate change. This study aims to investigate the potential for hydrogen deployment in the Greek energy market during the next few decades. In this context, green hydrogen’s potential application in the Greek market is being assessed, employing an integrated techno-economic model grounded in worldwide trends and localized expenses. The forthcoming years will see an analysis of both the challenges and opportunities surrounding the integration and implementation of hydrogen in new and existing processes within Greece. Many alternative ways to produce hydrogen in Greece are investigated, contemplating different production paths. We evaluate how fluctuations in hydrogen, oil, and carbon prices affect the economics of green hydrogen adoption in oil refining, as is detailed in the draft of the European Union delegated act published in May 2022. The Levelized Cost of Hydrogen (LCOH) for different scenarios is calculated for the time frame up until 2050. A sensitivity analysis reveals that investment costs, electricity prices, electrolyzer efficiency, and carbon taxes significantly influence the LCOH, ultimately impacting the economic competitiveness of hydrogen production. These findings underscore the importance of aligning public–private partnership agendas in hydrogen production to create optimal conditions for investment attraction and development.

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Section: Green Hydrogen Production: Current Trends and Costsmentioning

confidence: 99%

Is Greece Ready for a Hydrogen Energy Transition?—Quantifying Relative Costs in Hard to Abate Industries

Nanaki,

Kiartzis,

Xydis

2024

Energies

View full text Add to dashboard Cite

show abstract

Green hydrogen production using proton membrane electrolysis of clean drinking water

Cited by 2 publications

References 29 publications

Is Greece Ready for a Hydrogen Energy Transition?—Quantifying Relative Costs in Hard to Abate Industries

Is Greece Ready for a Hydrogen Energy Transition?—Quantifying Relative Costs in Hard to Abate Industries

Prefeasibility study on optimal site location for Power‐to‐X: An experiment for the Danish energy system

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