Tracking vortex surfaces frozen in the virtual velocity in non-ideal flows

Hao Jinhua; Xiong Shiying; Yang Yue

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Tracking vortex surfaces frozen in the virtual velocity in non-ideal flows

机译：跟踪在非理想流中的虚拟速度中冻结的涡旋表面

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摘要

We demonstrate that, if a globally smooth virtual circulation-preserving velocity exists, Kelvin's and Helmholtz's theorems can be extended to some non-ideal flows which are viscous, baroclinic or with non-conservative body forces. Then we track vortex surfaces frozen in the virtual velocity in the non-ideal flows, based on the evolution of a vortex-surface field (VSF). For a flow with a viscous-like diffusion term normal to the vorticity, we obtain an explicit virtual velocity to accurately track vortex surfaces in time. This modified flow is dissipative but prohibits reconnection of vortex lines. If a globally smooth virtual velocity does not exist, an approximate virtual velocity can still facilitate the tracking of vortex surfaces in non-ideal flows. In a magnetohydrodynamic Taylor-Green flow, we find that the conservation of vorticity flux is significantly improved in the VSF evolution convected by the approximate virtual velocity instead of the physical velocity, and the spurious vortex deformation induced by the Lorentz force is eliminated.

机译：我们证明，如果存在全球平稳的虚拟循环循环速度，则赫尔文和亥姆霍兹的定理可以扩展到一些非理想的流量，这些流量是粘性，曲金或具有非保守体力。然后，我们基于涡旋表面字段（VSF）的演变，跟踪在非理想流动中的虚拟速度中冻结的涡旋表面。对于具有涡流的粘性扩散术语的流程，我们获得了明确的虚拟速度，以准确地跟踪涡旋表面。这种改进的流量是耗散的，但禁止重新连接涡旋线。如果不存在全局平滑的虚拟速度，则近似虚拟速度仍然可以促进在非理想流中的涡流表面的跟踪。在磁性动力学泰勒 - 绿色流动中，我们发现在由近似虚拟速度而不是物理速度的VSF演变中，涡旋通量的守恒显着改善，并且消除了由洛伦兹力诱导的虚假涡流变形。

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来源
《Journal of Fluid Mechanics》 |2019年第2019期|共32页
作者
Hao Jinhua; Xiong Shiying; Yang Yue;
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作者单位

Peking Univ Coll Engn State Key Lab Turbulence &

Complex Syst Beijing 100871 Peoples R China;

Peking Univ Coll Engn State Key Lab Turbulence &

Complex Syst Beijing 100871 Peoples R China;

Peking Univ Coll Engn State Key Lab Turbulence &

Complex Syst Beijing 100871 Peoples R China;

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原文格式 PDF
正文语种 eng
中图分类流体力学;
关键词
topological fluid dynamics; vortex dynamics;

机译：拓扑流体动力学;涡旋动力学;

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1. Tracking vortex surfaces frozen in the virtual velocity in non-ideal flows [J] . Hao Jinhua, Xiong Shiying, Yang Yue Journal of Fluid Mechanics . 2019,第期

机译：跟踪在非理想流中的虚拟速度中冻结的涡旋表面
2. Measuring flow velocity on frozen and non-frozen slopes of black soil through leading edge method [J] . Chao Chen, Yunyun Ban, Xuefeng Wang, International Soil and Water Conservation Research . 2017,第3期

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3. Vortex identification and tracking in unsteady flows [J] . Berson A, Michard M, Blanc-Benon P Comptes rendus. Mecanique . 2009,第2期

机译：不稳定流中的涡流识别和跟踪
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Tracking vortex surfaces frozen in the virtual velocity in non-ideal flows

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