DNS identify four power-law regimes in Nusselt number versus aspect ratio in differentially heated cavities, with maximum heat flux at Re_u/Re_v ≈ 0.45 and optimal aspect ratio scaling as Γ_opt ∼ Ra^{-0.19}.
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physics.flu-dyn 2years
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Cryogenic RBC heat-transfer data require rigorous uncertainty analysis to separate possible ultimate-regime transitions from non-Oberbeck-Boussinesq effects and experimental imperfections.
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Geometry-controlled heat transport pathways and optimal heat transfer in differentially heated cavities
DNS identify four power-law regimes in Nusselt number versus aspect ratio in differentially heated cavities, with maximum heat flux at Re_u/Re_v ≈ 0.45 and optimal aspect ratio scaling as Γ_opt ∼ Ra^{-0.19}.
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Experimental Challenges in Determining Heat Transfer Efficiency Scaling in Highly Turbulent Cryogenic Rayleigh-Benard Convection
Cryogenic RBC heat-transfer data require rigorous uncertainty analysis to separate possible ultimate-regime transitions from non-Oberbeck-Boussinesq effects and experimental imperfections.