变粘度和重力波动对有限导电性边界板流体层双扩散对流的影响

Q3 Engineering

International Journal of Thermofluid Science and Technology Pub Date : 2023-07-01 DOI:10.36963/ijtst.2023100302

G. Y. H., N. H.

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引用次数: 0

摘要

对具有边界板的流体层中双扩散对流的发生进行了线性稳定性分析，并考虑了温度相关的粘度和重力波动。作者提出了三种重力涨落类型。我们考虑了三种重力场波动情况:(a)线性，(b)抛物线和(c)立方。通过摄动技术得到了后续问题的解析解。结果表明:黏度变化参数、导热系数、重力参数、深度比和索ret参数加速了对流的启动，而Lewis数的增加减慢了对流运动。此外，发现系统在线性型重力场波动下更稳定，而在立方型重力场波动下更不稳定。

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Influence of variable viscosity and gravity fluctuation on double diffusive convection in a fluid layer with boundary slab of finite conductivity

The linear stability analysis is carried out for the onset of double-diffusive convection in a fluid layer with a boundary slab along with temperature-dependent viscosity and gravity fluctuation. The authors proposed three types of gravity fluctuation. We considered three cases of gravity field fluctuation: (a) linear and (b)parabolic and (c) cubic. An analytical solution for the subsequent problem is acquired through the perturbation technique. The findings demonstrate that the viscosity variation parameter, the thermal conductivity ratio, the gravity parameter, the depth ratio, and the soret parameter accelerate the start of convection, while the increasing Lewis number slow down the convective motion. Additionally, the system was found to be more stable for the linear type of gravity field fluctuation and more unstable for the cubic type of gravity field fluctuation.

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International Journal of Thermofluid Science and Technology Engineering-Mechanical Engineering

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