2013
DOI: 10.1016/j.ijthermalsci.2013.07.007
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Thermal convection of non-Fourier fluids. Linear stability

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Cited by 24 publications
(15 citation statements)
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“…This effect has been predicted theoretically by including non-Fourier effects in a linear stability analysis of thermal convection [58,75]. These authors showed that if C becomes of order 10 À2 , which is a plausible value in a small enough system, then the conduction state becomes unstable at a smaller value of Ra than for a Fourier fluid.…”
Section: Microscale Thermal Convectionmentioning
confidence: 78%
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“…This effect has been predicted theoretically by including non-Fourier effects in a linear stability analysis of thermal convection [58,75]. These authors showed that if C becomes of order 10 À2 , which is a plausible value in a small enough system, then the conduction state becomes unstable at a smaller value of Ra than for a Fourier fluid.…”
Section: Microscale Thermal Convectionmentioning
confidence: 78%
“…In other words, both the steady and oscillatory branches exhibit a minimum at the same (critical) Rayleigh number but corresponding to two different wavenumber. For C > C H , only oscillatory convection is predicted, at a critical Rayleigh number decreasing with C [58,75]. Experimentally, oscillatory convection in liquid metals has indeed been observed, and the predicted non-Fourier character of the liquid may be responsible for this behaviour [96].…”
Section: Liquid Metalsmentioning
confidence: 88%
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