论旋转电热对流中交换原理的有效性

Chitresh Kumari, Jitender Kumar, Jyoti Prakash
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引用次数: 0

摘要

我们利用线性稳定性理论对从下(或从上)加热的旋转介质流体层中的电热对流进行了分析研究。首先,我们推导出流体层从下向上加热时发生振荡运动的必要条件。然后,仅从系统参数的角度推导出两种构型的交换原理有效性的充分条件。这些结果适用于所有波数的自由边界,也适用于受某些限制的刚性边界。此外,还得出了无旋转电热对流、旋转瑞利-贝纳德对流和瑞利-贝纳德对流的特殊情况,从而验证了现有结果。据作者所知,就电热对流研究领域而言,此类结果尚未见诸文献报道。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
On the validity of the exchange principle in rotatory electrothermoconvection
The electrothermoconvection in a rotating dielectric fluid layer heated from below (or above) is studied analytically using linear stability theory. First, we derive the necessary conditions for oscillatory motion when the fluid layer is heated from below and from above. Then as a consequence, sufficient conditions for the validity of the exchange principle are derived for the two configurations in terms of the parameters of the systems alone. The results hold for free boundaries for all wave numbers and for rigid boundaries with some restrictions. Further, the results for electrothermoconvection without rotation, rotatory Rayleigh–Bénard convection and Rayleigh–Bénard convection are also obtained as special cases which validate the existing results. To the best of author’s knowledge such results are not reported in the literature as far as the domain of electrothermoconvection studies is concerned.
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