Magneto-Hydrodynamic Flow of Micropolar Nanofluid Containing Motile Microorganisms Passing over a Vertical Stretching Sheet with Magnetic Field Dependent Viscosity

Izadi M.; Shahivand I.; Mehryan S. A.; Hasan M. S.; Lorenzini G.

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Magneto-Hydrodynamic Flow of Micropolar Nanofluid Containing Motile Microorganisms Passing over a Vertical Stretching Sheet with Magnetic Field Dependent Viscosity

机译：含有磁场依赖性粘度的垂直拉伸板的磁力多极体纳米流体的磁力流体流动。

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This study investigates the mixed convection heat transfer characteristics of micropolar nanofluid containing motile microorganisms as it is passing over a stretching sheet. The governing equations of the fluid flow and boundary conditions are solved via similarity analysis using the fourth-order Runge-Kutta method. To verify the accuracy and validity of the method, the results are compared with those of several previous studies. The results are presented in terms of distribution of the velocity, particle micro-rotation, temperature, nanoparticle concentration, and density of motile microorganisms over the stretching sheet. The skin friction, coupled stress, mass transfer rate, and the rate of microorganism transfer away from the sheet are also examined. It can be concluded that the Nusselt number, coupled stress, friction coefficient, and Sherwood number are independent of the bioconvection Lewis number Lb. On the other hand, the rate of motile microorganism transfer away from the sheet to the fluid increases with Lb.

机译：本研究调查了含有运动微生物的微极性纳米流体通过拉伸板时的混合对流换热特性。采用四阶龙格-库塔法，通过相似性分析求解流体流动的控制方程和边界条件。为了验证该方法的准确性和有效性，将结果与之前的几项研究进行了比较。结果以速度分布、颗粒微旋转、温度、纳米颗粒浓度和拉伸片上运动微生物的密度表示。还检查了表面摩擦、耦合应力、传质速率和微生物从板材转移的速率。可以得出结论，Nusselt数、耦合应力、摩擦系数和Sherwood数与生物转化Lewis数Lb无关。另一方面，运动微生物从板材转移到流体的速率随着Lb的增加而增加。

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来源
《Journal of engineering thermophysics》 |2020年第4期|共25页
作者
Izadi M.; Shahivand I.; Mehryan S. A.; Hasan M. S.; Lorenzini G.;
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作者单位

Duy Tan Univ Inst Res &

Dev Da Nang Vietnam;

Islamic Azad Univ Dezful Branch Dept Mech Engn Dezful Iran;

Islamic Azad Univ Yasooj Branch Young Researchers &

Elite Club Yasuj Iran;

Bangabandhu Sheikh Mujibur Rahman Sci &

Technol U Dept Math Gopalganj 8100 Bangladesh;

Univ Parma Dept Engn &

Architecture Parma Italy;

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正文语种 eng
中图分类热力工程、热机;
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2. Induced magnetic field stagnation point flow of nanofluid past convectively heated stretching sheet with Buoyancy effects [J] . Tanzila Hayat, S Nadeem 中国物理：英文版 . 2016,第011期
3. Mixed convection stagnation-point flow on vertical stretching sheet with external magnetic field [J] . F.M.ALI, R.NAZAR, N.M.ARIFIN, 应用数学和力学（英文版） . 2014,第002期
4. Dual solutions of time-dependent magnetohydrodynamic stagnation point boundary layer micropolar nanofluid flow over shrinking/stretching surface [J] . H.B.LANJWANI, M.S.CHANDIO, M.I.ANWAR, 应用数学和力学（英文版） . 2021,第007期
5. Heat and Mass Transfer in Stagnation Point Flow of Maxwell Nanofluid Towards a Vertical Stretching Sheet with Effect of Induced Magnetic Field [J] . Tadesse Walelign, Eshetu Haile, Tesfaye Kebede, Mathematical Problems in Engineering: Theory, Methods and Applications . 2021,第a期

机译：麦克风纳米流体朝向垂直拉伸板的滞销点流动的热量和传质
6. Influence of temperature and magnetic field on the oblique stagnation-point flow for a nanofluid past a vertical stretching/shrinking sheet [J] . Alessandra Borrelli, Giulia Giantesio, Maria Cristina Patria, International journal of numerical methods for heat & fluid flow . 2018,第12期

机译：温度和磁场对纳米流体通过垂直拉伸/收缩片材的斜停点流动的影响
7. Cu-water nanofluid flow induced by a vertical stretching sheet in presence of a magnetic field with convective heat transfer [J] . Kalidas Das, Amit Sarkar, Prabir Kumar Kundu Propulsion and Power Research . 2017,第3期

机译：垂直拉伸片在磁场对流换热作用下诱导的铜水纳米流体流动
8. g-Jitter Induced Mixed Convection Flow and Heat Transfer of Micropolar Nanofluids Flow over an Inclined Stretching Sheet [C] . Noraihan Afiqah Rawi, Mohd Rijal Ilias, Zaiton Mat Isa, International Conference on Mathematics, Engineering and Industrial Applications . 2016

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9. Fluid Flow and Heat Transfer Analysis of a Nanofluid Containing Motile Gyrotactic Micro-Organisms Passing a Nonlinear Stretching Vertical Sheet in the Presence of a Non-Uniform Magnetic Field; Numerical Approach [O] . S. A. M. Mehryan, Farshad Moradi Kashkooli, M. Soltani, -1

机译：在非均匀磁场作用下含有运动性回旋微有机体的纳米流体通过非线性垂直拉伸片的流动和传热分析；数值方法
10. Fluid Flow and Heat Transfer Analysis of a Nanofluid Containing Motile Gyrotactic Micro-Organisms Passing a Nonlinear Stretching Vertical Sheet in the Presence of a Non-Uniform Magnetic Field; Numerical Approach. [O] . S A M Mehryan, Farshad Moradi Kashkooli, M Soltani, 2016

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11. Comparison of MHD Pressure Losses of Liquid-Lithium Flows in Coaxial and Parallel Ducts, Passing Through Strong Transverse Magnetic Fields [R] . Trommer, G. 1979

机译：同轴和平行管道中液 - 锂流动mHD压力损失的比较，穿过强横向磁场

Magneto-Hydrodynamic Flow of Micropolar Nanofluid Containing Motile Microorganisms Passing over a Vertical Stretching Sheet with Magnetic Field Dependent Viscosity

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