2015
DOI: 10.1017/jfm.2015.606
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The asymptotic equivalence of fixed heat flux and fixed temperature thermal boundary conditions for rapidly rotating convection

Abstract: The influence of fixed temperature and fixed heat flux thermal boundary conditions on rapidly rotating convection in the plane layer geometry is investigated for the case of stress-free mechanical boundary conditions. It is shown that whereas the leading-order system satisfies fixed temperature boundary conditions implicitly, a double boundary layer structure is necessary to satisfy the fixed heat flux thermal boundary conditions. The boundary layers consist of a classical Ekman layer adjacent to the solid bou… Show more

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Cited by 21 publications
(20 citation statements)
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“…The agreement between the independent scalings Eqs. (20) and (21) shows that Re ∼ Re H and Pe ∼ Pe H , consistent with our assumption that ∼ H in NRL and SRL. Lastly, multiplying by Ek, the momentum transport scalings Eqs.…”
Section: The Nonrotating and Slowly Rotating Limitssupporting
confidence: 85%
See 1 more Smart Citation
“…The agreement between the independent scalings Eqs. (20) and (21) shows that Re ∼ Re H and Pe ∼ Pe H , consistent with our assumption that ∼ H in NRL and SRL. Lastly, multiplying by Ek, the momentum transport scalings Eqs.…”
Section: The Nonrotating and Slowly Rotating Limitssupporting
confidence: 85%
“…(1b), we use the abbreviated notation (u • ∇θ ) = u • ∇θ − ∇ • (uθ ). Convective motions in this system are driven by an unstable, system-scale temperature gradient ∂ g T = O( T /H ) measured in the direction of gravityê g , where T is the temperature drop across the fluid layer of system depth H. Here T is sustained either via fixed temperature boundaries or via an applied heat flux Q [21]. Depending on the setup,ê g can be oriented in the axial directionê z [22], the cylindrically radial directionê s [23], or the spherically radial directionê r [16].…”
Section: Governing Equations and Parametersmentioning
confidence: 99%
“…However, it should be noted that the specific form of the thermal boundary conditions is unimportant in the limit of rapid rotation (Calkins et al. 2015), and the present model can be generalised to no-slip mechanical boundary conditions (Julien et al. 2016).…”
Section: Methodsmentioning
confidence: 96%
“…Choosing fixed-temperature or fixed-flux boundary conditions results in different formulations of the Rayleigh and Nusselt numbers; these differences are outlined in §2. However, after appropriate translation between the fixed-flux and fixed-temperature formulations the Nusselt-Rayleigh scaling is the same in both cases (Otero et al 2002;Ahlers et al 2009;Johnston & Doering 2009;Calkins et al 2015;Goluskin 2015).…”
Section: Heterogeneous Boundary Conditions For the Corementioning
confidence: 98%