具有欧姆加热、热辐射和热源/散热器的通道中Au血液微电极纳米流体的脉动磁流体流动

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2022-03-31 DOI:10.15388/namc.2022.27.26602
Devendiran Rajkumar, A. Subramanyam Reddy
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引用次数: 4

摘要

本文研究了存在热辐射和焦耳加热的金血微极纳米流体的脉动流动。微极流体被定位为血液(基液)和金(金)作为纳米颗粒。这种流动已经被数学建模,形成了一个精细的偏微分方程(PDEs)系统。采用微扰技术将PDE系统转化为常微分方程,然后用龙格-库塔四阶格式的射击法求解。研究了不同参数对金血纳米流体的速度、微旋、温度和传热速率的影响。结果表明,纳米流体的速度随耦合参数、磁场和纳米颗粒体积分数的增加而减小。温度随辐射参数、频率参数、耦合参数、磁场和纳米颗粒体积分数的增加而降低。结果表明,随着Eckert数的增大,Nusselt数对频率分布的影响也随之增大。
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Pulsating hydromagnetic flow of Au-blood micropolar nanofluid in a channel with Ohmic heating, thermal radiation and heat source/sink
The current work deals with the pulsating flow of Au-blood micropolar nanofluid with the existence of thermal radiation and Joule heating. Micropolar fluid is addressed as blood (base fluid) and Au (gold) as a nanoparticle. The flow has been mathematically modeled, resulting in a delicate system of partial differential equations (PDEs). A perturbation technique is used to convert the PDE system into ordinary differential equations (ODEs), which are subsequently solved by using the shooting method with the Runge–Kutta fourth-order scheme. The effects of various parameters on the velocity, microrotation, temperature, and heat transfer rate of Au-blood nanofluid are graphically depicted and explored successively. The obtained findings bring out that the velocity of nanofluid decreases over a rise in the coupling parameter, magnetic field, and nanoparticle volume fractions. The temperature is reducing with an increment of radiation parameter, frequency parameter, coupling parameter, magnetic field, and volume fraction of nanoparticles. Further, the results show that the Nusselt number against frequency distribution increasing with the rising values of the Eckert number.
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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