Investigation for brownian motion of nonlinear thermal bioconvective SPF in a nanofluid utilizing AGM method

Q2 Physics and Astronomy
A. Hasibi , A. Gholami , Z. Asadi , D. D Ganji
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引用次数: 0

Abstract

An analysis of the bioconvective slump point flow of nanofluid is addressed. The studied nanofluid, which contains gyrotactic microorganisms, was investigated in a porous medium on a nonlinear tensile plate in which it was placed. The scaling group transformation approach converted the analyzed PDEs to ODEs. ODEs obtained are solved using the numerical method (rkf-45) and AGM, and the results are compared with DTM and RKF methods. The accuracy of the obtained answers is remarkable compared to the mentioned methods. An increase in the density of motile microorganism distribution caused by the increment in values of bioconvection Peclet number is desired. In addition, a rapid increase in heat transfer rate and mass transfer rate happens when there is an increase in the thermophoresis parameter, heat source parameter, chemical reaction parameter, and Brownian motion parameter in a sequence. In this study, we investigated the SPF of bioconvective nanofluids containing GM. It is observed that the flow velocity increases as Da−1 decreases. As Rb increases, bioconvection increases. These studies may be used for biotechnological applications, such as the design of bioconjugates or the increase of mass transfer in microfluidics.

利用AGM方法研究纳米流体中非线性热生物对流SPF的布朗运动
对纳米流体的生物对流坍落点流动进行了分析。在非线性拉伸板上的多孔介质中,研究了含有陀螺仪微生物的纳米流体。标度群变换方法将分析得到的偏微分方程转化为偏微分方程。采用数值方法(RKF -45)和AGM方法求解得到的ode,并将求解结果与DTM和RKF方法进行比较。与上述方法相比,得到的答案的准确性是显著的。期望生物对流小波数值的增加引起活动微生物分布密度的增加。另外,当热泳参数、热源参数、化学反应参数、布朗运动参数依次增大时,传热速率和传质速率迅速增大。在本研究中,我们研究了含有GM的生物对流纳米流体的SPF值,观察到流速随着Da−1的减小而增加。随着Rb的增加,生物对流增加。这些研究可用于生物技术应用,如设计生物偶联物或增加微流体中的传质。
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
Physics Open
Physics Open Physics and Astronomy-Physics and Astronomy (all)
CiteScore
3.20
自引率
0.00%
发文量
19
审稿时长
9 weeks
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