Chemistry:Natural hydrogen

Natural hydrogen (known as white hydrogen or gold hydrogen), is hydrogen that is formed by natural process^[1][2] (as opposed to hydrogen produced in a laboratory or in industry). By contrast green hydrogen is produced from renewable energy sources, while grey, brown or black hydrogen are obtained from fossil fuels.^[3] White hydrogen may be renewable. It is non-polluting and offers lower costs than industrial hydrogen.^[4] Natural hydrogen has been identified in many source rocks in areas beyond the sedimentary basins where oil companies typically operate.^[5][6]

Origins

Sources of natural hydrogen include:^[7]

• degassing of deep hydrogen from Earth's crust and mantle;^[8]
• reaction of water with ultrabasic rocks (serpentinisation);
• water in contact with reducing agents in Earth's mantle;
• weathering - water in contact with freshly exposed rock surfaces;
• decomposition of hydroxyl ions in the structure of minerals;
• natural water radiolysis;
• decomposition of organic matter;
• biological activity

Reserves

Reserves have been identified in France.^[9] In 2023 Pironon and de Donato announced the discovery of a deposit they estimated to be some 46 million to 260 million metric tons (several years worth of 2020s production).^[10]

Prinzhofer and Derville demonstrated the existence of large reservoirs in a dozen countries, including Mali and the United States.^[11] However, their potential remains unassessed.^[12]

Emanations on the ocean floor have been identified but remain unexploited. A discovery in Russia in 2008 suggests the possibility of extracting native hydrogen in geological environments.

A large accumulation of natural hydrogen was discovered in a water well in Bourakebougou, Mali that was exploited to power the nearby village.^[10]

Mid-continent Rift System

Mid-continental Rift System

White hydrogen could be found or produced in the Mid-continental Rift System at scale. Water could be pumped down to hot iron-rich rock to produce hydrogen for extraction.^[13]

Geology

Natural hydrogen is generated from various sources. Many hydrogen emergences have been identified on mid-ocean ridges.^[14] Serpentinisation occurs in the oceanic crust.

Diagenetic origin (iron oxidation) in the sedimentary basins of cratons, notably are found in Russia.

Mantle hydrogen and hydrogen from radiolysis (natural electrolysis) or from bacterial activity are under investigation. In France, the Alps and Pyrenees are suitable for exploitation.^[15] New Caledonia has hyperalkaline sources that show dihydrogen emissions.^[16]

Dihydrogen is soluble in fresh water, especially at depth (solubility increases with pressure).

Literature

Vladimir Vernadsky originated the concept of natural hydrogen captured by the Earth in the process of formation from the post-nebula cloud. Cosmogonical aspects were anticipated by Fred Hoyle. From 1960-2010, V.N. Larin developed the Primordially Hydridic Earth concept^{[17][dubious – discuss]} that described deep-seated natural hydrogen prominence^[18] and migration paths.

See also

• Pure-play helium
• Electrofuel
• Hydrogen economy
• Hydrogen production
• Combined cycle hydrogen power plant
• Hydrogen fuel cell power plant

References

Bibliography

• Larin V.N. 1975 Hydridic Earth: The New Geology of Our Primordially Hydrogen-Rich Planet (Moscow: Izd. IMGRE) in Russian
• V.N. Larin (1993). Hydridic Earth, Polar Publishing, Calgary, Alberta. Hydridic Earth: the New Geology of Our Primordially Hydrogen-rich Planet
• Our Earth. V.N. Larin, Agar, 2005 (rus.) Наша Земля (происхождение, состав, строение и развитие изначально гидридной Земли)
• Lopez-Lazaro, Cristina; Bachaud, Pierre; Moretti, Isabelle; Ferrando, Nicolas (2019). "Predicting the phase behavior of hydrogen in NaCl brines by molecular simulation for geological applications". BSGF - Earth Sciences Bulletin 190: 7. doi:10.1051/bsgf/2019008. 
• Gaucher, Éric C. (February 2020). "New Perspectives in the Industrial Exploration for Native Hydrogen". Elements: An International Magazine of Mineralogy, Geochemistry, and Petrology 16 (1): 8-9. doi:10.2138/gselements.16.1.8. https://pubs.geoscienceworld.org/msa/elements/article-standard/16/1/8/582934/New-Perspectives-in-the-Industrial-Exploration-for. Retrieved May 2, 2023. 
• Gaucher, Éric C.; Moretti, I.; Gonthier, N.; Pélissier, N.; Burridge, G. (June 2023). "The place of natural hydrogen in the energy transition: A position paper.". European Geologist Journal (55). doi:10.5281/zenodo.8108239. https://zenodo.org/record/8108239. Retrieved August 17, 2023. 
• Deville, Eric; Prinzhofer, Alain (November 2016). "The origin of N2-H2-CH4-rich natural gas seepages in ophiolitic context: A major and noble gases study of fluid seepages in New Caledonia". Chemical Geology 440: 139–147. doi:10.1016/j.chemgeo.2016.06.011. Bibcode: 2016ChGeo.440..139D. 
• Gregory Paita, Master Thesis, Engie & Université de Montpellier.Template:Title?
• Moretti I., Pierre H. Pour la Science, special issue in partnership with Engie, vol. 485; 2018. p. 28. N march. Moretti I, D'Agostino A, Werly J, Ghost C, Defrenne D, Gorintin L. Pour la Science, special issue, March 2018, vol 485, 24 25XXII_XXVI.Template:Title?
• Prinzhofer, Alain; Moretti, Isabelle; Françolin, Joao; Pacheco, Cleuton; D'Agostino, Angélique; Werly, Julien; Rupin, Fabian (March 2019). "Natural hydrogen continuous emission from sedimentary basins: The example of a Brazilian H2-emitting structure". International Journal of Hydrogen Energy 44 (12): 5676–5685. doi:10.1016/j.ijhydene.2019.01.119. https://hal-univ-pau.archives-ouvertes.fr/hal-02187461/file/2019_Prinzhofer_moretti_al%20%281%29.pdf. 
• Larin, Nikolay; Zgonnik, Viacheslav; Rodina, Svetlana; Deville, Eric; Prinzhofer, Alain; Larin, Vladimir N. (September 2015). "Natural Molecular Hydrogen Seepage Associated with Surficial, Rounded Depressions on the European Craton in Russia". Natural Resources Research 24 (3): 369–383. doi:10.1007/s11053-014-9257-5. 
• Zgonnik, Viacheslav; Beaumont, Valérie; Deville, Eric; Larin, Nikolay; Pillot, Daniel; Farrell, Kathleen M. (December 2015). "Evidence for natural molecular hydrogen seepage associated with Carolina bays (surficial, ovoid depressions on the Atlantic Coastal Plain, Province of the USA)". Progress in Earth and Planetary Science 2 (1): 31. doi:10.1186/s40645-015-0062-5. Bibcode: 2015PEPS....2...31Z. 
• Prinzhofer, Alain; Tahara Cissé, Cheick Sidy; Diallo, Aliou Boubacar (October 2018). "Discovery of a large accumulation of natural hydrogen in Bourakebougou (Mali)". International Journal of Hydrogen Energy 43 (42): 19315–19326. doi:10.1016/j.ijhydene.2018.08.193. 
• Zgonnik, Viacheslav (1 April 2020). "The occurrence and geoscience of natural hydrogen: A comprehensive review". Earth-Science Reviews 203: 103140. doi:10.1016/j.earscirev.2020.103140. Bibcode: 2020ESRv..20303140Z. 
• Prinzhofer, Alain; Deville, Éric (2015). Hydrogène naturel, la prochaine révolution énergétique. ISBN 978-2-410-00335-2. OCLC 1158938704. 
• Moretti, Isabelle (22 May 2020). "L'hydrogène naturel : curiosité géologique ou source d'énergie majeure dans le futur ?" (in fr). Connaissance des énergies. https://www.connaissancedesenergies.org/tribune-actualite-energies/lhydrogene-naturel-curiosite-geologique-ou-source-denergie-majeure-dans-le-futur. 
• Trégouët, René (17 July 2020). "L'hydrogène naturel pourrait devenir une véritable source d'énergie propre et inépuisable..." (in fr). RT Flash. https://www.rtflash.fr/l-hydrogene-naturel-pourrait-devenir-veritable-source-d-energie-propre-et-inepuisable/article. 
• Rigollet, Christophe; Prinzhofer, Alain (2022). "Natural Hydrogen: A New Source of Carbon-Free and Renewable Energy That Can Compete with Hydrocarbons". First Break 40 (10): 78–84. doi:10.3997/1365-2397.fb2022087. 

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