作者:(沙特阿拉伯)苏菲安·穆纳瓦尔
页数:211
出版社:哈尔滨工业大学出版社
出版日期:2022
ISBN:9787560340340
电子书格式:pdf/epub/txt
内容简介
要想物理学得好,数学必须好本书就是这样一部需要用到略微深入一些数学工具的物理学专著,而且是原版引进的英文版学术专著。在本书中,我们旨在研究具有轴对称性质的多维边界层流的各种流的情况.我们已经研究了表面膨胀或表面收缩的情况,以及旋转对等截面管内部边界层流动的影响.延伸表面、动量上旋转和振荡,以及外部边界层中热输送的影响已经被考虑在固体圆柱附近的流动中了.我们在旋转盘边界层流中也研究了驻点流。此外,在某些情况下,我们还研究了磁流体动力学(MHD),吸力或单射,以及不稳定的影响.表面摩擦系数和传热系数的计算也成为主要研究内容。
目录
1 Introduction
1.1 Literature review
1.2 Preliminaries
1.2.1 Governing laws
1.3 Boundary-layer equations in cylindrical coordinates
1.4 Basic definitions
1.4.1 Boundary-layer thickness
1.4.2 Displacement thickness
1.4.3 Momentum thickness
1.4.4 Skin friction
1.4.5 Nusselt number
1.4.6 Reynolds number
1.4.7 Hartmann number
1.4.8 Strouhal number
1.4.9 Prandtl number
1.4.10 Eckert number
1.4.11 Squared residual error
2 Boundary-layer flow inside and over long thin moving pipe
2.1 Introduction
2.2 Magnetohydrodynamic flow inside permeable moving pipe
2.2.1 Mathematical formulation
2.2.2 Solution of the problem
2.2.3 Convergence of the series solution
2.2.4 Flow characteristics
2.2.5 Conclusion
2.3 Local non-similarity flow past impulsively started cylinder
2.3.1 Mathematical Formulation
2.3.2 Solution of the problem
2.3.3 Convergence of the series solution
2.3.4 Flow characteristics
2.3.5 Conclusion
3 Flow and heat transfer near rotating pipe
3.1 Introduction
3.2 Magnetohydrodynamic flow in permeable rotating pipe at slowlyexpanding and contracting wall
3.2.1 Mathematical formulation
3.2.2 Solution of the problem
3.2.3 Convergence of the series solution
3.2.4 Flow characteristics
3.2.5 Conclusion
3.3 Magnetohydrodynamic flow and heat transfer over stretchable rotating cylinder
3.3.1 Formulation of the problem
3.3.2 Solution of the problem
3.3.3 Results and discussion
3.3.4 Conclusion
4 Unsteady boundary-layer flow and heat transfer over stretching cylinder
4.1 Introduction
4.2 Flow analysis
4.2.1 Mathematical formulation
4.3 Heat transfer analysis
4.4 Solution of the problem
1.1 Literature review
1.2 Preliminaries
1.2.1 Governing laws
1.3 Boundary-layer equations in cylindrical coordinates
1.4 Basic definitions
1.4.1 Boundary-layer thickness
1.4.2 Displacement thickness
1.4.3 Momentum thickness
1.4.4 Skin friction
1.4.5 Nusselt number
1.4.6 Reynolds number
1.4.7 Hartmann number
1.4.8 Strouhal number
1.4.9 Prandtl number
1.4.10 Eckert number
1.4.11 Squared residual error
2 Boundary-layer flow inside and over long thin moving pipe
2.1 Introduction
2.2 Magnetohydrodynamic flow inside permeable moving pipe
2.2.1 Mathematical formulation
2.2.2 Solution of the problem
2.2.3 Convergence of the series solution
2.2.4 Flow characteristics
2.2.5 Conclusion
2.3 Local non-similarity flow past impulsively started cylinder
2.3.1 Mathematical Formulation
2.3.2 Solution of the problem
2.3.3 Convergence of the series solution
2.3.4 Flow characteristics
2.3.5 Conclusion
3 Flow and heat transfer near rotating pipe
3.1 Introduction
3.2 Magnetohydrodynamic flow in permeable rotating pipe at slowlyexpanding and contracting wall
3.2.1 Mathematical formulation
3.2.2 Solution of the problem
3.2.3 Convergence of the series solution
3.2.4 Flow characteristics
3.2.5 Conclusion
3.3 Magnetohydrodynamic flow and heat transfer over stretchable rotating cylinder
3.3.1 Formulation of the problem
3.3.2 Solution of the problem
3.3.3 Results and discussion
3.3.4 Conclusion
4 Unsteady boundary-layer flow and heat transfer over stretching cylinder
4.1 Introduction
4.2 Flow analysis
4.2.1 Mathematical formulation
4.3 Heat transfer analysis
4.4 Solution of the problem
