Az energetikai átmenet kérdései: A hidrogén kihívásainak és lehetőségeinek feltárása
Navigating the energy transition: Exploring the challenges and opportunities of hydrogen
Keywords:
hydrogen, energy transition, low carbon emission, white hydrogen, /, hidrogén, energetikai átmenet, alacsony szénkibocsátás, fehér hidrogénAbstract
Hydrogen plays a key part in the energy transition since it emits no carbon dioxide when burned. Industrial manufacturing of green, black/grey and blue hydrogen does not appear to be the most environmentally beneficial solution and is also not cost effective. Therefore recent studies focused on the identification of natural (white/gold) hydrogen sources.
References
SCHIPPER, E. L. F., TANNER, T., DUPE, O. P., ADAMS, K. M., HUK, S. 2020: The debate: Is global development adapting to climate change?, World Development Perspectives, 18:100205.
OSSELIN, F., SOULAINE, C., FAUGUROLLES, C., GAUCHER, E. C., SCAILLET, B., PICHAVANT, M. 2022: Orange hydrogen is the new green, Nature Geoscience, 15:10, 765–769.
ZHANG, Z., HUISINGH, D. 2016: Carbon dioxide storage schemes: Technology, assessment and deployment, Journal of Cleaner Production, 142, 1055–1064.
GAMBHIR, A., TAVONI, M. 2019: Direct Air Carbon Capture and Sequestration: How It Works and How It Could Contribute to Climate-Change Mitigation, One Earth, 1:4, 405–409.
MOODY, J. B. 1976: Serpentinization: a review, Lithos, 9:2, 125–138.
MAYHEW, L. E., ELLISON, E. T., MCCOLLOM, T. M., TRAINOR, T. P., TEMPLETON, A. S. 2013: Hydrogen generation from low-temperature water-rock reactions, Nature Geoscience, 6:6,478–484.
TRUCHE, L., MCCOLLOM, T. M., MARTINEZ, I. 2020: Hydrogen and abiotic hydrocarbons: Molecules that change the world, Elements, 16:1, 3–18.
DUBESSY, J., PAGEL, M., BENY, J-M.,CHRISTENSEN, H., HICKEL, B., KOSZTOLANYI, C., POTY, B. 1988: Radiolysis evidenced by H2-O2 and H2-bearing fluid inclusions in three uranium deposits, Geochimica et Cosmochimica Acta, 52:5, 1155–1167.
LIN, L-H., HALL, J., LIPPMANN-PIPKE, J., WARD, J. A., SHERWOOD LOLLAR, B., DEFLAUN, M., ROTMEL, R., MOSER, D., GIHRING, T. M., MISLOWACK, B., ONSOTT, T. C. 2005: Radiolytic H2 in continental crust: Nuclear power for deep subsurface microbial communities, Geochemistry, Geophysics Geosystems, 6:7, 1–13, 2005.
HOLLAND, H. D. 2002: Volcanic gases, black smokers, and the great oxidation event, Geochimica et Cosmochima Acta, 66:21, 3811–3826.
SHERWOOD LOLLAR, B., ONSOTT, T. C., LACRAMPE-COULOUME, G., BALLENTINE, C. J. 2014: The contribution of the Precambrian continental lithosphere to global H2 production Nature, 516:7531, 379–382.
SCHRENK, M. O., BRAZELTON, W. J., LANG, S. Q. 2013: Serpentinization, Carbon, and Deep Life, Reviews in Mineralogy and Geochemistry, 75, 575–606.
ADAM, N., PERNER, M. 2018: Microbially mediated hydrogen cycling in deep-sea hydrothermal vents, Frontiers in Microbiology, 9.
CONRAD, R. 1996: Soil microorganisms as controllers of atmospheric trace gases (H2, CO, CH4, OCS, N2O, and NO), Microbiological Reviews, 60-4, 609–640.
MILKOV, A. V. 2022: Molecular hydrogen in surface and subsurface natural gases : Abundance , origins and ideas for deliberate exploration, Earth-Science Reviews, 230, 104063.
GAUCHER, E. C. 2020: New perspectives in the industrial exploration for native hydrogen, Elements, 9–11.
DEVILLE, E. P., PRINZHOFER, A. 2009: Natural flows of H2-rich fluids in the ophiolites of Oman and the Philippines : Tectonic control of migration pathways and associated diagenetic processes, American Geophysical Union, 1–2.
ZGONNIK, V., BEAUMONT, V., LARIN, N., PILLOT, D., DEVILLE, E. 2019: Diffused flow of molecular hydrogen through the Western Hajar mountains, Northern Oman, Arabian Journal of Geosciences, 12:3.
DEVILLE, E., PRINZHOFER, A. 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.
HOSGROMEZ, H., ETIOPE, G, YALCIN, M. N. 2008: New evidence for a mixed inorganic and organic origin of the Olympic Chimaera fire (Turkey): A large onshore seepage of abiogenic gas, Geofluids, 8:4, 263–273.
ETIOPE, G. 2023: Massive release of natural hydrogen from a geological seep (Chimaera, Turkey): Gas advection as a proxy of subsurface gas migration and pressurised accumulations, International Journal of Hydrogen Energy, 48, 9172–9184.
TRUCHE, L., DONZÉ, F-V., GOSKOLLI, E., MUCEKU, B., LOISY, C., MONNIN, C., DUTOIT, H., CEREPI, A. 2024: A deep reservoir for hydrogen drives intense degassing in the Bulqizë ophiolite, Science, 383, 618–621.
LARIN, N., ZGONNIK, V., RODINA, S., DEVILLE, E., PRINZHOFER, A., LARIN, V. N. 2015: Natural Molecular Hydrogen Seepage Associated with Surficial, Rounded Depressions on the European Craton in Russia, Natural Resources Research, 24:3, 369–383.
FRERY, E., LANGHI, L., MAISON, M., MORETTI, I. 2021: Natural hydrogen seeps identified in the North Perth Basin, Western Australia, International Journal of Hydrogen Energy, 46, 31158–31173.
PRINZHOFER, A., TAHARA CISSÉ, C. S., DIALLO, A. B. 2018: Discovery of a large accumulation of natural hydrogen in Bourakebougou (Mali), International Journal of Hydrogen Energy, 43, 19315–19326.
ZGONNIK, V., BEAUMONT, V., DEVILLE, E., LARIN, N., PILLOT, D., FARRELL, K. M. 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.
BRIERE, D., JERZYKIEWICZ, T. 2016: On generating a geological model for hydrogen gas in the southern Taoudeni Megabasin (Bourakebougou area, Mali), AAPG/SEG International Conference & Exhibition, 2016, 342–342.
ETIOPE, G., SCHOELL, M., HOSGORMEZ, H. 2011: Abiotic methane flux from the Chimaera seep and Tekirova ophiolites (Turkey): Understanding gas exhalation from low temperature serpentinization and implications for Mars, Earth and Planetary Science Letters, 310, 96–104.
VACQUAND, C., DEVILLE, E., BEAUMONT, V., GUYOT, F., SISSMANN, O., PILLOT, D., ARCILLA, C., PRINZHOFER, A. 2018: Reduced gas seepages in ophiolitic complexes: Evidences for multiple origins of the H2-CH4-N2 gas mixtures, Geochimica et Cosmochimica Acta, 223, 437–461.
