Juan Zhang, Awais Ahmed, Muhammad Naveed Khan, Fuzhang Wang, Shaimaa A M Abdelmohsen, H. Tariq
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引用次数: 3
摘要
研究了含二氧化硅(Si O 2)和二硫化钼(M O S 2)纳米颗粒的粘性流体旋流中的热传输机制。流动是由于可伸缩的旋转圆柱体浸入无限大的流体中而产生的。应用边界层假设简化了问题的控制方程。在热和质量约束下,应用Cattaneo-Christov的热能传输理论来研究这一现象。流动也受到洛伦兹力的影响。将bvp4c数值技术应用于类似的微分方程,得到了流场、温度场和浓度场的结果。根据观察结果,值得注意的是,在洛伦兹力的存在下,纳米流体的速度场会减小。热弛豫和溶质弛豫现象也降低了纳米流体流动中的能量传输。通过与先前发表的研究进行比较,验证了结果。
Swirling flow of fluid containing (SiO2) and (MoS2) nanoparticles analyze via Cattaneo-Christov theory
Investigation of heat transport mechanism in swirling flow of viscous fluid containing silicon dioxide ( S i O 2 ) and molybdenum disulfide ( M o S 2 ) nanoparticles is performed. The flow is engendered due to stretchable rotating cylinder which immersed in infinite fluid. The boundary layer assumption is applied to simplify the governing equations of the problem. The theory of Cattaneo-Christov for thermal energy transportation is employed in the present phenomenon under the heat and mass constraints. The flow is also influenced by Lorentz force. The results for flow field, temperature, and concentration field are produced by employing the bvp4c numerical technique to the similar differential equations. According to the observations, it is noted that in the presence of Lorentz force the reduction in velocity field of the nanofluid occurs. The thermal and solutal relaxation phenomena also declines the energy transport in nanofluid flow. The outcomes are validated through the comparison with previous published studies.
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