Numerical simulations of thermal convection in rotating spherical shells under laboratory conditions

Ferran Garcia; Juan Sánchez; Marta Net

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Numerical simulations of thermal convection in rotating spherical shells under laboratory conditions

机译：实验室条件下旋转球壳热对流的数值模拟

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An exhaustive study, based on numerical three-dimensional simulations, of the Boussinesq thermal convection of a fluid confined in a rotating spherical shell is presented. A moderately low Prandtl number fluid (σ = 0:1) bounded by differentially-heated solid spherical shells is mainly considered. Asymptotic power laws for the mean physical properties of the flows are obtained in the limit of low Rossby number and compared with laboratory experiments and with previous numerical results computed by taking either stress-free boundary conditions or quasi-geostrophic restrictions, and with geodynamo models. Finally, using parameters as close as possible to those of the Earth's outer core, some estimations of the characteristic time and length scales of convection are given.s

机译：提出了基于数值三维模拟的详尽研究，研究了旋转球形壳中流体的Boussinesq热对流。主要考虑由差热固体球壳限定的中等低普朗特数流体（σ= 0：1）。在低Rossby数的极限中获得了流体平均物理特性的渐近幂定律，并将其与实验室实验以及通过采用无应力边界条件或准地转限制和先前的数值结果进行了比较，并与大地动力学模型进行了比较。最后，使用与地球外核尽可能接近的参数，给出了对流特征时间和长度尺度的一些估计。

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《Physics of the Earth and Planetary Interiors: A Journal Devoted to Obsevational and Experimerntal Studies of the Chemistry and Physics of Planetary Interiors and Their Theoretical Interpretation》 |2014年第null期|共17页
作者
Ferran Garcia; Juan Sánchez; Marta Net;
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原文格式 PDF
正文语种 eng
中图分类地球物理学;
关键词
Rotating thermal convection; High Rayleigh number; Turbulence; Earth's outer core;

机译：旋转热对流;高瑞利数;湍流;地球外核;

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1. Numerical simulations of thermal convection in rotating spherical shells under laboratory conditions [J] . Ferran Garcia, Juan Sánchez, Marta Net Physics of the Earth and Planetary Interiors: A Journal Devoted to Obsevational and Experimerntal Studies of the Chemistry and Physics of Planetary Interiors and Their Theoretical Interpretation . 2014,第Null期

机译：实验室条件下旋转球壳热对流的数值模拟
2. The effects of a Robin boundary condition on thermal convection in a rotating spherical shell [J] . Clarte Thibaut T., Schaeffer Nathanael, Labrosse Stephane, Journal of Fluid Mechanics . 2021,第1期

机译：罗宾边界条件对旋转球形壳体热对流的影响
3. Convection in a rapidly rotating spherical shell with an imposed laterally varying thermal boundary condition [J] . Davies CJ, Gubbins D, Jimack PK Journal of Fluid Mechanics . 2009,第Null期

机译：在快速旋转的球形壳中对流，并施加横向变化的热边界条件
4. THERMAL CONVECTION IN ROTATING SPHERICAL SHELLS: AN EXPERIMENTAL AND NUMERICAL APPROACH WITHIN GEOFLOW [C] . Birgit Futterer, Marcus Gellert, Thomas von Larcher, International Astronautical Congress(IAC2006); 20061002-06; Valencia(ES) . 2006

机译：旋转球壳的热对流：地质流动内的实验和数值方法
5. Numerical Simulations of Convection and Convection-Driven Dynamos in Spherical Shells [D] . Orvedahl, Ryan J. 2021

机译：球形壳中对流与对流驱动发电机的数值模拟
6. Numerical Simulation on Convection and Thermal Radiation of Casson Fluid in an Enclosure with Entropy Generation [O] . A. K. Alzahrani, S. Sivasankaran, M. Bhuvaneswari 2020

机译：熵生成外壳中鲫鱼流体对流和热辐射的数值模拟
7. The effects of a Robin boundary condition on thermal convection in a rotating spherical shell [O] . Thibaut T. Clarté, Nathanaël Schaeffer, Stéphane Labrosse, 2021

机译：Robin边界条件对旋转球形壳体热对流的影响

Numerical simulations of thermal convection in rotating spherical shells under laboratory conditions

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