磁场控制下在无限液体中振荡的两个刚性球体的相互作用

J. Appl. Math. Pub Date : 2023-05-05 DOI:10.1155/2023/1146872

Shreen El-Sapa, W. Albalawi

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引用次数: 1

摘要

研究了在无边界粘性流体中振荡的两个刚性球体在磁场作用下的瞬态蠕动运动。在两个不同尺寸和半径的刚性球面上，不存在与斯托克斯流相关的滑移。在低雷诺数条件下，可以采用边界配置格式求解。对硬球形颗粒的非定常实阻力系数和虚阻力系数进行了估计。这些系数在各种参数的表中计算出来，并用图形说明。频率参数和Hartmann数在本研究中也发挥了重要作用，当κ = 5.0时，阻力系数减小或增大100%。利用现有文献资料，我们检验了结果的准确性和可靠性。

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Interaction of Two Rigid Spheres Oscillating in an Infinite Liquid under the Control of a Magnetic Field

The transient creeping motion of two rigid spheres oscillating in a boundless viscous fluid beneath the impact of the magnetic field is investigated. There is no slippage associated with a Stokes flow on the two rigid spherical surfaces with different sizes and radii. The solutions can be obtained using the boundary collocation scheme at low Reynolds numbers. The unsteady real and imaginary drag coefficients are estimated on the hard spherical particles. These coefficients are computed in tables for various parameters and illustrated graphically. The frequency parameter and Hartmann number also play a significant role in this study where the drag coefficients decrease or increase by 100 percent after the value of κ = 5.0 . Using available literature data, we tested the accuracy and reliability of our results.

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J. Appl. Math.

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