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Homogeneous–heterogeneous reaction mechanism on MHD carbon nanotube flow over a stretching cylinder with prescribed heat flux using differential transform method
Journal of Computational Design and Engineering ( IF 4.8 ) Pub Date : 2020-04-10 , DOI: 10.1093/jcde/qwaa028
Shib Sankar Giri 1 , Kalidas Das 2 , Prabir Kumar Kundu 3
Affiliation  

Hydromagnetic nanofluid flow through an incompressible stretching cylinder accompanying with homogeneous–heterogeneous chemical reaction has been executed in current literature. SWCNTs (single-walled carbon nanotubes) and MWCNTs (multiwalled carbon nanotubes) as nanoparticles in appearance of prescribed heat flux are accounted here. Leading equations of the assumed model have been normalized through similarity practice and succeeding equations resolved numerically by spending RK-4 shooting practice and analytically by engaging differential transform method. The impulse of promising flow constraints on the flow characteristic is finalized precisely through graphs and charts. We perceived that velocity outlines and temperature transmission are advanced in MWCNT than SWCNT in every case.

中文翻译:

MHD碳纳米管在规定的热通量下通过扩散法在MHD碳纳米管上的均相-异相反应机理

在目前的文献中已经执行了通过不可压缩的拉伸圆柱体的水磁纳米流体流以及均相-异相化学反应。在此说明了以规定的热通量出现的纳米颗粒形式的SWCNT(单壁碳纳米管)和MWCNT(多壁碳纳米管)。假设模型的主导方程已通过相似性实践进行了归一化,随后的方程通过花费RK-4射击实践进行了数值解析,并通过采用差分变换法进行了解析。通过图形和图表精确地确定了对流量特性有希望的流量约束的冲动。我们认为,在每种情况下,MWCNT中的速度轮廓和温度传递都比SWCNT高。
更新日期:2020-04-10
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