Entropy optimization of non-Newtonian hybrid nanofluid flow with non-linear radiation, exponential and thermal dependent heat source: Neuro-intelligent design

IF 1.4 4区工程技术 Q2 ENGINEERING, MULTIDISCIPLINARY

Scientia Iranica Pub Date : 2023-06-18 DOI:10.24200/sci.2023.61412.7291

D. A, B. P

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Abstract

The prediction of entropy generation with a thermal and exponential space dependent heat source of unsteady flow over a rotating disk is the artifact of the paper. For the specific physical model, Oldroyd-B within fluid flow is encrypted. Also, mechanism of cobalt and tantalum nanoparticles with in the blood is employed. The proper self-similarity variables are used to convert the non-linear PDE system of equations into an ODE form, which is then calculated using the Runge–Kutta 4 th with shooting technique and artificial neural network. Visual representations are used to show how different skewing interact with each other. With a few exceptions, the research findings of the model are quite consistent with those reported in the literature. Skin frictions decrease for the parameters like radiation, Eckert number, Brinkman number and exponential based heat source. Nusselt number rises for electric and unsteady parameters. Also, entropy generation rises for magnetic field and Brinkman number whereas opposite tendency is observed for the electric field. Since cobalt stimulates red blood cell production, while tantalum is employed in bone implants and iodinated agents for blood imaging due to its long circulation time. Thus, this research may be used to treat anemia.

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具有非线性辐射、指数和热相关热源的非牛顿混合纳米流体流动熵优化:神经智能设计

本文的主要工作是利用热和指数空间相关热源对旋转圆盘非定常流的熵产进行预测。对于特定的物理模型，流体流动中的Oldroyd-B被加密。此外，还利用了纳米钴和纳米钽在血液中的作用机理。利用适当的自相似变量将非线性PDE方程组转化为ODE形式，然后利用龙格-库塔四阶射击技术和人工神经网络对其进行计算。视觉表示用于显示不同的倾斜如何相互作用。除了少数例外，模型的研究结果与文献报道的结果相当一致。在辐射、Eckert数、Brinkman数和指数热源等参数下，皮肤摩擦减小。对于电参数和非定常参数，努塞尔数上升。此外，磁场和布林克曼数的熵产增加，而电场的熵产则相反。由于钴刺激红细胞生成，而钽由于其循环时间长，被用于骨植入物和血液成像的碘化剂。因此，这项研究可能用于治疗贫血。

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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来源期刊

Scientia Iranica 工程技术-工程：综合

CiteScore

2.90

自引率

7.10%

发文量

审稿时长

2 months

期刊介绍： The objectives of Scientia Iranica are two-fold. The first is to provide a forum for the presentation of original works by scientists and engineers from around the world. The second is to open an effective channel to enhance the level of communication between scientists and engineers and the exchange of state-of-the-art research and ideas. The scope of the journal is broad and multidisciplinary in technical sciences and engineering. It encompasses theoretical and experimental research. Specific areas include but not limited to chemistry, chemical engineering, civil engineering, control and computer engineering, electrical engineering, material, manufacturing and industrial management, mathematics, mechanical engineering, nuclear engineering, petroleum engineering, physics, nanotechnology.