Numerical Investigation of Active and Passive Control of MHD Oblique Stagnation Point Flow of Casson-Nano Fluid Along with Convective Boundary Conditions

International Journal of Advancements in Mathematics Pub Date : 2022-12-30 DOI:10.52223/ijam.20222205
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Abstract

In this paper, we are going to study the numerical investigation of oblique stagnation point flow of Casson-nano fluids along with convective boundary conditions. Mixed boundary conditions for active and passive control are also number, and presents the findings using tables and graphs. The study reveals that an increase in the Biot number and thermal radiation parameter results in an enhancement of the temperature distribution, while an increase in the suction/injection parameter causes a reduction in the velocity and temperature distributions for both injection and suction cases.
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基于对流边界条件的卡森-纳米流体MHD斜驻点流动主动与被动控制数值研究
本文对卡森-纳米流体在对流边界条件下的斜驻点流动进行了数值研究。文中还列举了主动和被动控制的混合边界条件,并用图表的形式给出了结果。研究表明,Biot数和热辐射参数的增加会导致温度分布的增强,而吸入/喷射参数的增加会导致喷射和吸入情况下速度和温度分布的减小。
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International Journal of Advancements in Mathematics
International Journal of Advancements in Mathematics
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