横向磁场作用下非理想弛豫气体中加速波的演变

IF 1.4 4区 工程技术 Q2 ENGINEERING, MULTIDISCIPLINARY Journal of Engineering Mathematics Pub Date : 2024-05-02 DOI:10.1007/s10665-024-10345-3
G. Nath, V. S. Kadam
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引用次数: 0

摘要

在存在横向磁场的情况下,利用准线性系统的特征作为参考坐标系,研究了非理想弛豫气体中加速波沿其特征路径的演变。结果表明,特征面上的线性解在物理面上可能表现为非线性。我们确定了初始扰动的临界振幅;如果压缩扰动的初始振幅大于临界值,扰动必然最终形成冲击波,而如果小于该值,扰动将衰减,不会形成冲击波。我们建立了冲击波产生的标准和控制弱冲击波发展的传输方程。我们分析了平面对称和圆柱对称的加速波,研究了它们的陡峭化或扁平化与非理想参数、弛豫参数、绝热指数和磁场强度参数的函数关系。在平面对称性和圆柱对称性中,弛豫参数和磁场参数的增加会减缓冲击形成过程,但非理想性和绝热指数的增加会加速冲击形成过程。在绝热指数为 \(\gamma = 2\) 的理想气体情况下,磁场对平面对称和圆柱对称波面的陡峭化或扁平化没有影响。
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Evolution of acceleration waves in non-ideal relaxing gas subjected to the transverse magnetic field

Using the characteristics of the governing quasi-linear system as the referencing coordinate system in the presence of a transverse magnetic field, the evolution of acceleration waves in a non-ideal relaxing gas has been examined along its characteristic path. It is demonstrated that a linear solution in the characteristic plane can behave non-linearly in the physical plane. We have determined the critical amplitude of the initial disturbance; if the initial amplitude of the compressive disturbance is greater than the critical value, the disturbance must culminate into a shock wave, while if it is less than this value, the disturbance will decay, and no shock formation will happen. We establish the criteria for shock generation and the transport equation that governs the development of weak shock waves. Acceleration waves having planar and cylindrical symmetry are analyzed as their steepening, or flattening is investigated as a function of the non-idealness parameter, relaxation parameter, adiabatic index, and magnetic field strength parameter. In both the planar and cylindrical symmetries, the shock formation process is slowed by increasing the relaxation parameter as well as the magnetic field parameter but accelerated by non-idealness and the adiabatic index. In the ideal gas case with adiabatic exponent \(\gamma = 2\), the magnetic field has no effect on the steepening or flattening of the wavefront in both the planar and cylindrical symmetries.

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来源期刊
Journal of Engineering Mathematics
Journal of Engineering Mathematics 工程技术-工程:综合
CiteScore
2.10
自引率
7.70%
发文量
44
审稿时长
6 months
期刊介绍: The aim of this journal is to promote the application of mathematics to problems from engineering and the applied sciences. It also aims to emphasize the intrinsic unity, through mathematics, of the fundamental problems of applied and engineering science. The scope of the journal includes the following: • Mathematics: Ordinary and partial differential equations, Integral equations, Asymptotics, Variational and functional−analytic methods, Numerical analysis, Computational methods. • Applied Fields: Continuum mechanics, Stability theory, Wave propagation, Diffusion, Heat and mass transfer, Free−boundary problems; Fluid mechanics: Aero− and hydrodynamics, Boundary layers, Shock waves, Fluid machinery, Fluid−structure interactions, Convection, Combustion, Acoustics, Multi−phase flows, Transition and turbulence, Creeping flow, Rheology, Porous−media flows, Ocean engineering, Atmospheric engineering, Non-Newtonian flows, Ship hydrodynamics; Solid mechanics: Elasticity, Classical mechanics, Nonlinear mechanics, Vibrations, Plates and shells, Fracture mechanics; Biomedical engineering, Geophysical engineering, Reaction−diffusion problems; and related areas. The Journal also publishes occasional invited ''Perspectives'' articles by distinguished researchers reviewing and bringing their authoritative overview to recent developments in topics of current interest in their area of expertise. Authors wishing to suggest topics for such articles should contact the Editors-in-Chief directly. Prospective authors are encouraged to consult recent issues of the journal in order to judge whether or not their manuscript is consistent with the style and content of published papers.
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