Modeling and theoretical investigation of curved parabolized surface of second-order velocity slip flow: Combined analysis of entropy generation and activation energy

Qayyum Sumaira; Khan M. Ijaz; Chammam Wathek; Khan W. A.; Ali Zulfiqar; Ul-Haq Wasim

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Modeling and theoretical investigation of curved parabolized surface of second-order velocity slip flow: Combined analysis of entropy generation and activation energy

机译：二阶速度滑移曲线曲折表面的建模与理论研究：熵生成和激活能量的综合分析

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摘要

Here our purpose is to explore the entropy generation in nanofluid MHD flow by curved stretching sheet; second-order slip is considered. Additional effects of viscous dissipation, Joule heating, and activation energy are taken. Temperature and concentration boundary conditions are considered convectively. For convergence of series solution NDSolve MATHEMATICA is used. Velocity, Bejan number, concentration, temperature, and entropy generation graphs are sketched for important parameters. For greater estimations of first- and second-order velocity slip parameters fluid velocity reduces. The thermal and solutal Biot numbers enhance the temperature and concentration, respectively. The concentration also has direct relation with activation energy. Entropy generation reduces for chemical reaction parameter and first- and second-order slip parameters.

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来源
《Modern Physics Letters, B. Condensed Matter Physics, Statistical Physics, Applied Physics》 |2020年第33期|共15页
作者
Qayyum Sumaira; Khan M. Ijaz; Chammam Wathek; Khan W. A.; Ali Zulfiqar; Ul-Haq Wasim;
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作者单位

Quaid I Azam Univ Dept Math Islamabad 44000 Pakistan;

Riphah Int Univ Dept Math Faisalabad Campus Satina Rd Faisalabad Pakistan;

Majmaah Univ Coll Sci Al Zulfi Dept Math POB 66 Majmaah 11952 Saudi Arabia;

Beijing Inst Technol Sch Math &

Stat Beijing 100081 Peoples R China;

Riphah Int Univ Dept Math Faisalabad Campus Satina Rd Faisalabad Pakistan;

Abbottabad Univ Sci &

Technol Dept Math Captain Akaash Rabbani Shaheed Rd Havelian Kpk Pakistan;

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原文格式 PDF
正文语种 eng
中图分类应用物理学;
关键词
Curved stretching surface; activation energy; entropy generation; nanofluid; second-order velocity slip; convective boundary conditions; magnetohydrodynamics (MHD); viscous dissipation;

机译：弯曲的拉伸表面;激活能量;熵生成;纳米流体;二阶速度滑移;对流边界条件;磁力流体（MHD）;粘性耗散;

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Modeling and theoretical investigation of curved parabolized surface of second-order velocity slip flow: Combined analysis of entropy generation and activation energy

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