Browsing Tetherless World Publications by Author "Barbier, S."
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A review of H2, CH4, and hydrocarbon formation in experimental serpentinization using network analysis
Barbier, S.; Huang, Fang; Andreani, M.; Tao, R.; Hao, J.; Eleish, Ahmed; Prabhu, Anirudh; et al. (Frontiers in Earth Science, 2020-01-01)The origin of methane and light hydrocarbons (HCs) in natural fluids from serpentinization has commonly been attributed to the abiotic reduction of oxidized carbon by H2 through Fischer-Tropsch-type (FTT) reactions. Multiple ... -
Abiotic hydrocarbon formation in serpentinization experiments: network analysis on a comprehensive dataset
Huang, Fang; Barbier, S.; Andreani, M.; Tao, R.; Hao, J.; Eleish, Ahmed; Prabhu, Anirudh; Minhas, O.; Fontaine, Kathleen; Fox, Peter (AGU, 2019-12-09)Serpentinization refers to the hydrothermal alteration of ultramafic rocks (e.g. peridotite) in which ferromagnesian silicate minerals react with water to dominantly precipitate serpentine and (hydr)oxides while producing ... -
Dataset for H2, CH4 and organic compounds formation during experimental serpentinization
Huang, Fang; Barbier, S.; Tao, Re.; Hao, J.; Garcia del Real, P.; Peuble, S.; Merdith, A.; et al. (Geoscience Data Journal, 2020-01-01)Serpentinization refers to the alteration of ultramafic rocks that produces serpentines and secondary (hydr)oxides under hydrothermal conditions. Serpentinization can generate H2, which in turn can potentially reduce CO/CO2 ... -
Serpentinization and hydrocarbon formation from experiments: a machine learning approach
Huang, Fang; Barbier, S.; Andreani, M.; Tao, R.; Hao, J.; Minhas, O.; Fontaine, Kathleen; Fox, Peter; Daniel, I. (EGU, 2019-01-01)Serpentinization is a hydrous alteration of ultramafic rocks in hydrothermal systems, which generates H2 and organic species, and can potentially contribute to origin of life. In the past decades, serpentinization has been ...