Rayleigh–Bénard convection in liquid metal layers under the influence of a vertical magnetic field
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Publication:3555708
DOI10.1063/1.1404385zbMath1184.76075OpenAlexW2087955567WikidataQ57075850 ScholiaQ57075850MaRDI QIDQ3555708
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Publication date: 22 April 2010
Published in: Physics of Fluids (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1063/1.1404385
magnetohydrodynamicstemperature distributionBénard convectionliquid metalstemperature measurementflow measurementliquid alloys
Related Items (13)
Onset of plane layer magnetoconvection at low Ekman number ⋮ Asymptotic theory of wall-attached convection in a horizontal fluid layer with a vertical magnetic field ⋮ Numerical simulations of thermal convection under the influence of an inclined magnetic field by using solenoidal bases ⋮ Wall modes in magnetoconvection at high Hartmann numbers ⋮ Effects of strong fringing magnetic fields on turbulent thermal convection ⋮ Flow regimes of Rayleigh–Bénard convection in a vertical magnetic field ⋮ Wall-attached convection under strong inclined magnetic fields ⋮ Turbulent Rayleigh–Bénard convection in a strong vertical magnetic field ⋮ MHD flow in a vertical channel under the effect of temperature dependent physical parameters ⋮ Thermal convection in the presence of a vertical magnetic field ⋮ Mixed convection MHD flow in a vertical channel: Effects of Joule heating and viscous dissipation ⋮ Heat transfer and flow regimes in quasi-static magnetoconvection with a vertical magnetic field ⋮ Free-fall velocities and heat transport enhancement in liquid metal magneto-convection
Cites Work
- Turbulent Rayleigh-Bénard convection in low Prandtl-number fluids
- Some Further Results on the Bénard Problem
- Small-scale variation of convected quantities like temperature in turbulent fluid Part 1. General discussion and the case of small conductivity
- Stability of convection rolls in the presence of a vertical magnetic field
- Nonlinear oscillatory convection in the presence of a vertical magnetic field
- Why, how, and when, MHD turbulence becomes two-dimensional
- Transition to time-dependent convection
- Magnetic damping of jets and vortices
- Buoyancy-driven convection with a uniform magnetic field. Part 2. Experimental investigation
- On maintained convective motion in a fluid heated from below
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