在存在热辐射的情况下,使用谎言群方法研究 Tiwari 和 Das 模型锥盘系统中的金血纳米流体流动

Aarti Manglesh, Rajeev Kumar, Tejinder Kumar
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摘要

锥盘系统的特点是锥体与顶点的圆盘接触,是一种应用广泛的排列方式,如锥形扩散器、粘度计和医疗设备。目前的研究重点是在存在热辐射的情况下,根据 Tiwari 和 Das 模型对锥盘系统中的金血纳米流体流动进行理论分析。分析了四种不同模型的三维轴对称金血液纳米流体流动,即模型 I(旋转锥体和静态圆盘)、模型 II(静态锥体和旋转圆盘)、模型 III(共同旋转锥体和圆盘)和模型 IV(反向旋转锥体和圆盘)。通过使用单参数 Lie 群方法将支配非线性方程转换为自相似方程,并使用 MATLAB 的 bvp5c 软件包进行求解,以检验问题中涉及的不同参数的影响。为了验证结果,将锥体和圆盘表面的努塞尔特数与已发表的文献进行了比较,结果一致,证明了问题的正确性。针对间隙角 \(\frac{\pi }{4}\) 的所有四种锥盘系统配置,详细讨论了各种参数对金血纳米流体的速度和温度曲线的影响,并以图形显示。分析结果表明,由于圆盘/锥体的旋转产生了很大的离心力,因此会出现向外的径向流动。此外,纳米流体的速度随着纳米粒子体积分数的增加而降低。结果还显示,纳米粒子体积分数、功率指数和辐射参数值的增加会导致温度曲线的增加。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Gold-blood nanofluid flow in cone-disk system for Tiwari and Das model in the presence of thermal radiation using lie group approach

The cone-disk system, featuring a cone in contact with a disk at its apex, is a versatile arrangement used in applications such as conical diffusers, viscosimeters and medical devices. Present research focus on the theoretical analysis of gold blood nanofluid flow in cone disk system for Tiwari and Das model in the presence of thermal radiation. The three dimensional axisymmetric gold blood nanofluid flow is analysed for four distinct models namely model I (rotating cone and static disk), model II (static cone and rotating disk), model III (co-rotating cone and disk) and model IV (counter rotating cone and disk). The governing non-linear equations are transformed to self similar equations by using one parameter Lie group approach and solved by using bvp5c package of MATLAB to examine the effect of different parameters involving in the problem. In order to validate the result, Nusselt number at cone and disk surfaces are compared with the published literature and the closed agreement authenticates the validation of the problem. The influence of various parameters on velocity and temperature profile of gold blood nanofluid has been discussed in detail for all four configurations of cone disk system for the gap angle \(\frac{\pi }{4}\) and are shown graphically. The result of this analysis shows that there is a outward radial flow as a result of high centrifugal forces due to rotation of disk/cone. Also the velocity of nanofluid decrease with increasing the nanoparticle volume fraction. The results also reveal that an increase in the nanoparticle volume fraction, power exponent, and radiation parameter values leads to an increase in the temperature profile.

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Inequalities for operators and operator pairs in Hilbert spaces A note on the exceptional set for sums of unlike powers of primes Spline approximation methods for second order singularly perturbed convection-diffusion equation with integral boundary condition Fundamental property of $$2 \times n$$ row Suslin matrices Gold-blood nanofluid flow in cone-disk system for Tiwari and Das model in the presence of thermal radiation using lie group approach
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