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• W2767960552 abstract "The operation of a geothermal facility is largely affected by the content and composition of gases dissolved in the formation fluids. Typically, the geothermal gas mixtures consists of different types of gases of different origin. In this study, the origin of various gas components from the Rotliegend – Permocarboniferous geothermal reservoir Groß Schönebeck (North German Basin) was investigated. Three formation fluid samples were collected from the depth of the production well Gt GrSk 04/05 (between 4120 and 4240 m) at conditions of the Rotliegend/Permocarboniferus reservoir (about 140–150 °C and 430–450 bar). Identified and further investigated gases are N2, CH4, CO2, H2, higher gaseous alkanes, and noble gases. The stable isotope ratio of individual gas components range from 0.2 to 1.5‰ (δ15NAir) for N2, from −16.5 to −21.2‰ for CH4, from −18 to −26‰ for C2H6, from −24 to −30‰ for C3H8, and from −13.1 to −20.2‰ for CO2 (δ13CV-PDB for all hydrocarbons and carbon dioxide). Isotopic ratios measured for the noble gases He, Ne, and Ar indicated that 20Ne/22Ne and 38Ar/36Ar are indistinguishable from air, while all other isotope ratios show excess of radiogenic or nucleogenic isotopes. Results of δ15NAir suggest that the source of N2 are the highly matured Westphalian coals (Upper Carboniferous)l. Isotopic ratios of CH4 and CO2 confirmed thermogenic decomposition of terrestrial plants from a similar source as the most likely precursor for these gases. The inverse carbon isotope trend might be linked to heavy metal catalysed cracking of long-chain hydrocarbons and/or evolution of precipitates during fluid evaporation in the basin. The observed 3He/4He ratios of ≤0.0642 ± 0.0026 Ra demonstrate a crustal origin of He. The N2/40Ar ratio (1648 ± 480) indicates a crustal origin and practically without any influence of the air. 21Ne/22Ne is distinguished from the air and more enriched in nucleogenic 21Ne, relative to 22Ne, when compared to the average crustal Ne composition. The calculated residence time of fluids by means of in situ produced nuclides varies for 40Ar from 72 to 80 Ma and for 4He from 365 to 401 Ma. The apparent age discrepancy gives a hint for He migration from older stratigraphic layers or stratas enriched in parent nuclides (U, Th)." @default.
• W2767960552 created "2017-11-17" @default.
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• W2767960552 date "2018-01-01" @default.
• W2767960552 modified "2023-10-18" @default.
• W2767960552 title "Origin of gases from the geothermal reservoir Groß Schönebeck (North German Basin)" @default.
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• W2767960552 cites W1967535300 @default.
• W2767960552 cites W1969940305 @default.
• W2767960552 cites W1973157183 @default.
• W2767960552 cites W1973221312 @default.
• W2767960552 cites W1976539802 @default.
• W2767960552 cites W1978190411 @default.
• W2767960552 cites W1981200900 @default.
• W2767960552 cites W1985501963 @default.
• W2767960552 cites W1987850691 @default.
• W2767960552 cites W1989402614 @default.
• W2767960552 cites W1989977743 @default.
• W2767960552 cites W1990826869 @default.
• W2767960552 cites W2000208622 @default.
• W2767960552 cites W2007318010 @default.
• W2767960552 cites W2008680648 @default.
• W2767960552 cites W2008999341 @default.
• W2767960552 cites W2009689313 @default.
• W2767960552 cites W2015262194 @default.
• W2767960552 cites W2019491576 @default.
• W2767960552 cites W2022448496 @default.
• W2767960552 cites W2024087677 @default.
• W2767960552 cites W2024482144 @default.
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• W2767960552 cites W2033440154 @default.
• W2767960552 cites W2035524946 @default.
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• W2767960552 cites W2038090715 @default.
• W2767960552 cites W2038863374 @default.
• W2767960552 cites W2042660273 @default.
• W2767960552 cites W2045351375 @default.
• W2767960552 cites W2046883802 @default.
• W2767960552 cites W2049948815 @default.
• W2767960552 cites W2051851831 @default.
• W2767960552 cites W2055640539 @default.
• W2767960552 cites W2057015319 @default.
• W2767960552 cites W2060254092 @default.
• W2767960552 cites W2064291501 @default.
• W2767960552 cites W2065124494 @default.
• W2767960552 cites W2067209039 @default.
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• W2767960552 cites W2086931649 @default.
• W2767960552 cites W2086940060 @default.
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• W2767960552 doi "https://doi.org/10.1016/j.geothermics.2017.09.007" @default.
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