U. Harlander , F.-T. Schön , I.D. Borcia , S. Richter , R. Borcia , M. Bestehorn
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引用次数: 0
摘要
Cox 和 Mortell (1986) (A.A. Cox, M.P. Mortell 1986. J. Fluid Mech. 162, pp. 99-116) 在一篇引人注目的论文中指出,对于振荡水箱,小振幅、长波长、共振强迫波的演变遵循强迫 Korteweg-de Vries (fKdV) 方程。该模型的解与切斯特和博恩斯(1968 年)的实验结果非常吻合(W. Chester and J.A. Bones 1968.Proc.Roy.A,306,23(第二部分))。我们将 fKdV 解法与实验和数值研究过的一些具有不同几何形状的通道流进行了比较。在所选的宽参数范围内,fKdV 方程的极端情况也包括在内:单孤子解以及波长相当短的多孤子,这对长波 fKdV 假设提出了挑战。具有不同数量孤子的解的过渡相当突然,我们证明了从单孤子向多孤子解过渡的参数值是可以预测的,并且遵循简单的指数关系。我们特别将 fKdV 模型与全非线性 Navier-Stokes 模型的解进行了比较。我们进一步考虑了一种严格意义上违反 fKdV 方程二维假设的情况。
Resonant water-waves in ducts with different geometries: Forced KdV solutions
In a remarkable paper, Cox and Mortell (1986) (A.A. Cox, M.P. Mortell 1986. J. Fluid Mech. 162, pp. 99-116) showed that for an oscillating water tank, the evolution of small-amplitude, long-wavelength, resonantly forced waves follow a forced Korteweg–de Vries (fKdV) equation. The solutions of this model agree well with experimental results by Chester and Bones (1968) (W. Chester and J.A. Bones 1968. Proc. Roy. Soc. A, 306, 23 (Part II)). We compare the fKdV solutions with a number of channel flows with different geometry that have been studied experimentally and numerically. When sweeping the selected wide parameter range, extreme cases of the fKdV equation are covered: single soliton solutions as well as multiple solitons with a rather short wavelength challenging the long-wave fKdV assumption. The transition of solutions with a different number of solitons is rather abrupt and we show that the parameter values for transitions from single soliton towards multi-soliton solutions can be predicted and follow a simple exponential relation. In particular, we compare the fKdV model with solutions from a fully nonlinear Navier–Stokes model. We further consider a case for which the 2D assumption of the fKdV equation is strictly speaking violated.
期刊介绍:
The European Journal of Mechanics - B/Fluids publishes papers in all fields of fluid mechanics. Although investigations in well-established areas are within the scope of the journal, recent developments and innovative ideas are particularly welcome. Theoretical, computational and experimental papers are equally welcome. Mathematical methods, be they deterministic or stochastic, analytical or numerical, will be accepted provided they serve to clarify some identifiable problems in fluid mechanics, and provided the significance of results is explained. Similarly, experimental papers must add physical insight in to the understanding of fluid mechanics.
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