Theoretical investigation of micropolar fluid flow between two porous disks 被引量：4

Theoretical investigation of micropolar fluid flow between two porous disks

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摘要 The steady, laminar, incompressible and two dimensional micropolar flow between two porous disks was investigated using optimal homotopy asymptotic method(OHAM) and fourth order Runge–Kutta numerical method. Comparison between OHAM and numerical method shows that OHAM is an exact and high efficient method for solving these kinds of problems. The results are presented to study the velocity and rotation profiles for different physical parameters such as Reynolds number, vortex viscosity parameter, spin gradient viscosity and microinertia density parameter. As an important outcome, the magnitude of the microrotation increases with an increase in the values of injection velocity while it decreases by increasing the values of suction velocity. The steady, laminar, incompressible and two dimensional micropolar flow between two porous disks was investigated using optimal homotopy asymptotic method（OHAM） and fourth order Runge–Kutta numerical method. Comparison between OHAM and numerical method shows that OHAM is an exact and high efficient method for solving these kinds of problems. The results are presented to study the velocity and rotation profiles for different physical parameters such as Reynolds number, vortex viscosity parameter, spin gradient viscosity and microinertia density parameter. As an important outcome, the magnitude of the microrotation increases with an increase in the values of injection velocity while it decreases by increasing the values of suction velocity.

作者 P.Valipour S.E.Ghasemi M.Vatani

机构地区 Department of Textile and Apparel Young Researchers and Elite Club Department oaf Mechanical Engineering

出处《Journal of Central South University》 SCIE EI CAS CSCD 2015年第7期2825-2832,共8页 中南大学学报（英文版）

关键词流体流动四阶龙格库塔法圆盘多孔旋转粘度渐近方法不可压缩数值方法 theoretical investigation porous disks micropolar fluid flow optimal homotopy asymptotic method（OHAM） microrotation

分类号 O361.3 [理学—流体力学]

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参考文献5

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