Mixing times in the mantle of the early Earth derived from 2-D and 3-D numerical simulations of convection

Coltice N; Schmalzl J

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Mixing times in the mantle of the early Earth derived from 2-D and 3-D numerical simulations of convection

机译：由对流的2维和3维数值模拟得出的早期地球地幔中的混合时间

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[1] The Earth's mantle is chemically heterogeneous at all scales, as shown by elemental and isotopic analysis of oceanic basalts. This heterogeneity is continuously destroyed by convective stirring and slow diffusion. It has been argued that 3-D time-dependent convection is less efficient than 2-D convection, except in the presence of a toroidal component. In this study we question this conclusion with numerical simulations and show that mixing in 3-D time-dependent convection is as efficient as in 2-D, and only depends on convective vigor. We compute mixing times of thermal and chemical heterogeneities in the early Earth of 10 and 100 Myrs respectively.

机译：[1]地球的地幔在所有尺度上都是化学非均质的，如对海洋玄武岩的元素和同位素分析所示。对流搅拌和缓慢扩散会不断破坏这种异质性。有人提出，除了存在环形分量外，与时间有关的3-D对流比2-D对流的效率低。在这项研究中，我们通过数值模拟对这一结论提出质疑，并表明在3D时间依赖性对流中进行混合与在2D环境中进行混合一样有效，并且仅取决于对流活力。我们分别计算了地球早期10 Myrs和100 Myrs的热和化学非均质性的混合时间。

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《Geophysical Research Letters》 |2006年第23期|共4页
作者
Coltice N; Schmalzl J;
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正文语种 eng
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DEPENDENT CONVECTION; ND-142 EVIDENCE; DIFFERENTIATION; HETEROGENEITY; EVOLUTION; PLUMES; HF;

机译：相关对流;ND-142证据;鉴别;异质性;演变;羽状;HF;

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专利

1. Mixing times in the mantle of the early Earth derived from 2-D and 3-D numerical simulations of convection [J] . Coltice N, Schmalzl J Geophysical Research Letters . 2006,第23期

机译：由对流的2维和3维数值模拟得出的早期地球地幔中的混合时间
2. Two-stage evolution of the Earth’s mantle inferred from numerical simulation of coupled magmatism-mantle convection system with tectonic plates [J] . Masaki Ogawa Journal of geophysical research. Solid earth: JGR . 2014,第3期

机译：由构造板块岩浆-地幔对流系统耦合数值模拟推论地幔的两阶段演化
3. Plate tectonics and convection in the Earth's mantle: toward a numerical simulation [J] . Moresi L., Gurnis M. Computing in science & engineering . 2000,第3期

机译：地球地幔的板块构造和对流：数值模拟
4. Mathematical Modeling and Numerical Simulation of Earth's Mantle Convection [C] . Masahisa Tabata, Atsushi Suzuki International Symposium on Mathematical Modeling and Numerical Stimulation in Continuum Mechanics . 2002

机译：地球地幔对流的数学建模与数值模拟
5. Constraints on mantle structure from geochemistry, seismology, and mixing studies: A numerical investigation of the compositional heterogeneity in the Earth's mantle. [D] . Xie, Shunxing. 2003

机译：地球化学，地震学和混合研究对地幔结构的限制：对地球地幔成分异质性的数值研究。
6. Numerical Simulation of Mixed Convection Squeezing Flow of a Hybrid Nanofluid Containing Magnetized Ferroparticles in 50:50 of Ethylene Glycol–Water Mixture Base Fluids Between Two Disks With the Presence of a Non-linear Thermal Radiation Heat Flux [O] . Kottakkaran Sooppy Nisar, Umair Khan, A. Zaib, 2020

机译：在50％：50％：50％：50％：50％的掺量磁化铁氧化物中挤出流动的混合对流挤压流动的数值模拟：50％的乙二醇 - 水混合物在两个盘之间的碱流体存在非线性热辐射热通量的存在
7. Mixing times in the mantle of the early Earth derived from 2-D and 3-D numerical simulations of convection [O] . N. Coltice, J. Schmalzl 2006

机译：早期地球的地幔中的混合时间来自对流的二维和三维数值模拟。
8. 3-D Treatment of Convective Flow in the Earth's Mantle [R] . Baumgardner, J. R. 1984

机译：地球地幔中对流的三维处理

Mixing times in the mantle of the early Earth derived from 2-D and 3-D numerical simulations of convection

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