Инд. авторы: Martirosyan N.S., Yoshino T., Shatskiy A.F., Chanyshev A.D., Litasov K.D.
Заглавие: The CaCO3–Fe interaction: Kinetic approach for carbonate subduction to the deep Earth's mantle
Библ. ссылка: Martirosyan N.S., Yoshino T., Shatskiy A.F., Chanyshev A.D., Litasov K.D. The CaCO3–Fe interaction: Kinetic approach for carbonate subduction to the deep Earth's mantle // Physics of the Earth and Planetary Interiors. - 2016. - Vol.259. - P.1-9. - ISSN 0031-9201. - EISSN 1872-7395.
Внешние системы: DOI: 10.1016/j.pepi.2016.08.008; SCOPUS: 2-s2.0-84984652094;
Реферат: eng: The CaCO3–Fe0 system, as a model for redox reactions between carbonates and reduced lithologies at the slab-mantle interface during subduction or at core-mantle boundary, was investigated systematically at temperatures from 650 to 1400 °C and pressures from 4 to 16 GPa using multianvil apparatus. CaCO3 reduction via reaction: 3 CaCO3 (aragonite) + 13 Fe0 (metal) = Fe7C3 (carbide) + 3 CaFe2O3 (Ca-wüstite) was observed. The thickness of the reaction-product layer (Δx) increases linearly with the square root of time in the time-series experiments (t), indicating diffusion-controlled process. The reaction rate constant (k = Δx2/2t) is log-linear relative to 1/T. Its temperature dependences was determined to be k [m2/s] = 2.1 × 10−7exp(−162[kJ/mol]/RT) at 4–6 GPa and k [m2/s] = 2.6 × 10−11exp(−65[kJ/mol]/RT) at 16 GPa. The sluggish kinetics of established CaCO3–Fe0 interaction suggests that significant amount of carbonates could survive during subduction from metal saturation boundary near 250 km depth down to the transition zone and presumably to the lower mantle if melting of carbonates is not involved. © 2016 Elsevier B.V.
Ключевые слова: Time-series experiments; Temperature dependence; Subducted slab; Sluggish kinetics; Multi-anvil apparatus; Iron carbides; Diffusion-controlled process; Core-mantle boundary; Temperature distribution; Reaction kinetics; Rate constants; Redox reactions; Enzyme kinetics; Carbonates; Carbides; Calcium carbonate; Calcium; Subducted slab; Redox reaction; Kinetics; Iron carbide; Ca-wüstite; Ca-carbonate; Kinetics;
Издано: 2016
Физ. характеристика: с.1-9