旋转纳米流体中热源/散热器对旋转锥的影响与磁场影响:基于细谷多项式配位法的应用

Ram Prakash Sharma, Pudhari Srilatha, Om Prakash, R. S. Varun Kumar
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摘要

本分析考虑了自由流和任意波动锥体随时间变化的角速度,从而得出了旋转纳米流体中经过旋转锥体的非稳定流。本研究考虑了热源/散热器和磁场对旋转纳米流体中经过旋转锥的非稳态流的影响。利用相似变量将一维控制方程转换为二维常微分方程(ODE)。利用基于细谷多项式配位法(HPBCM)求解了非线性 ODE 系统,并将求得的数值与数值方法 Runge Kutta Fehlberg 的四阶-五阶(RKF-45)方案进行了比较。多种因素对动量和热量分布的影响以图表形式显示。结果表明,锥体角速度与自由流角速度之比增加了速度分布,但热分布呈相反趋势。磁参数值的上升加剧了速度分布。热源/散热参数值的增加会使热剖面上升。随着非稳态参数的增加,温度曲线下降。
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Influence of heat source/sink on a rotating cone in a rotating nanofluid with magnetic field impact: Application of Hosoya polynomial‐based collocation method
The present analysis considers the angular velocities of the free flow and the arbitrarily fluctuating cone over time, leading to an unsteady stream over a rotating cone in a rotating nanofluid. The effects of heat source/sink and magnetic field on an unsteady flow past a rotating cone in a rotating nanoliquid are considered in this examination. The dimensional governing equations are transformed into nondimensional ordinary differential equations (ODEs) using the similarity variables. The nonlinear system of ODEs has been solved using the Hosoya polynomial‐based collocation method (HPBCM), and the obtained values are compared with the numerical method Runge Kutta Fehlberg's fourth‐fifth order (RKF‐45) scheme. The effects of numerous factors on the momentum and thermal distributions are shown graphically. Results reveal that the ratio of the cone angular velocity to the free stream angular velocity increases the velocity profile but converse trend is seen for the thermal profile. The upsurge in the values of the magnetic parameter intensifies the velocity profile. The rise in the values of the heat source/sink parameter upsurges the thermal profile. As the unsteady parameter increases temperature profile declines.
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