显式叠加和强迫平面波广义Beltrami流

IF 1.4 4区数学 Q2 MATHEMATICS, APPLIED IMA Journal of Applied Mathematics Pub Date : 2021-06-01 DOI:10.1093/imamat/hxab015

Artur Prugger;Jens D M Rademacher

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引用次数: 3

摘要

我们重新审视并提出了${｛\mathbb｛R｝｝}^n$上不可压缩Euler和Navier-Stokes方程的显式解的新线性空间，以及${{\mathbb{R｝}｝^3$上的旋转Boussinesq方程。我们认为这些解是任意振幅的某些线性平面波的叠加，它们也通过波矢量和流动方向的约束来求解非线性方程。对于$n\leqslant 3$，这些是广义Beltrami流的显式例子。我们证明了相应平面波类型的强迫项通过常数的线性变化产生显式解。我们在欧拉坐标系中工作，并区分消失和梯度非线性项的两种情况，其中非线性项修改了压力。我们介绍的在非线性流体模型中寻找显式解的方法也可以用于其他具有材料导数的方程。我们的方法从平面波的角度对不同流体模型的已知显式解提供了另一种观点，并提供了不同流动分量之间透明的非线性相互作用。

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Explicit superposed and forced plane wave generalized Beltrami flows

We revisit and present new linear spaces of explicit solutions to incompressible Euler and Navier–Stokes equations on ${{{\mathbb{R}}}}^n$ , as well as the rotating Boussinesq equations on ${{{\mathbb{R}}}}^3$ . We cast these solutions are superpositions of certain linear plane waves of arbitrary amplitudes that also solve the nonlinear equations by constraints on wave vectors and flow directions. For $n\leqslant 3$ , these are explicit examples for generalized Beltrami flows. We show that forcing terms of corresponding plane wave type yield explicit solutions by linear variation of constants. We work in Eulerian coordinates and distinguish the two situations of vanishing and of gradient nonlinear terms, where the nonlinear terms modify the pressure. The methods that we introduce to find explicit solutions in nonlinear fluid models can also be used in other equations with material derivative. Our approach offers another view on known explicit solutions of different fluid models from a plane wave perspective and provides transparent nonlinear interactions between different flow components.

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来源期刊

IMA Journal of Applied Mathematics 数学-应用数学

CiteScore

2.30

自引率

8.30%

发文量

审稿时长

24 months

期刊介绍： The IMA Journal of Applied Mathematics is a direct successor of the Journal of the Institute of Mathematics and its Applications which was started in 1965. It is an interdisciplinary journal that publishes research on mathematics arising in the physical sciences and engineering as well as suitable articles in the life sciences, social sciences, and finance. Submissions should address interesting and challenging mathematical problems arising in applications. A good balance between the development of the application(s) and the analysis is expected. Papers that either use established methods to address solved problems or that present analysis in the absence of applications will not be considered. The journal welcomes submissions in many research areas. Examples are: continuum mechanics materials science and elasticity, including boundary layer theory, combustion, complex flows and soft matter, electrohydrodynamics and magnetohydrodynamics, geophysical flows, granular flows, interfacial and free surface flows, vortex dynamics; elasticity theory; linear and nonlinear wave propagation, nonlinear optics and photonics; inverse problems; applied dynamical systems and nonlinear systems; mathematical physics; stochastic differential equations and stochastic dynamics; network science; industrial applications.