Interaction of a Vortex Induced by a Rotating Cylinder with a Plane

Daozhi Han; Yifeng Hou; Roger Temam

doi:10.4208/cicp.OA-2016-0190

Interaction of a Vortex Induced by a Rotating Cylinder with a Plane

Daozhi Han
, Yifeng Hou
, Roger Temam

Mathematics

Indiana University Bloomington

Research output: Contribution to journal › Article › peer-review

Abstract

In this article, we study theoretically and numerically the interaction of a vortex induced by a rotating cylinder with a perpendicular plane. We show the existence of weak solutions to the swirling vortex models by using the Hopf extension method, and by an elegant contradiction argument, respectively. We demonstrate numerically that the model could produce phenomena of swirling vortex including boundary layer pumping and two-celled vortex that are observed in potential line vortex interacting with a plane and in a tornado.

Original language	English
Pages (from-to)	599-619
Number of pages	21
Journal	Communications in Computational Physics
Volume	22
Issue number	3
DOIs	https://doi.org/10.4208/cicp.OA-2016-0190
State	Published - Sep 1 2017

Keywords

Navier-Stokes
Tornado
axisymmetric flow
boundary layer
swirling vortex

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abstract = "In this article, we study theoretically and numerically the interaction of a vortex induced by a rotating cylinder with a perpendicular plane. We show the existence of weak solutions to the swirling vortex models by using the Hopf extension method, and by an elegant contradiction argument, respectively. We demonstrate numerically that the model could produce phenomena of swirling vortex including boundary layer pumping and two-celled vortex that are observed in potential line vortex interacting with a plane and in a tornado.",

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N2 - In this article, we study theoretically and numerically the interaction of a vortex induced by a rotating cylinder with a perpendicular plane. We show the existence of weak solutions to the swirling vortex models by using the Hopf extension method, and by an elegant contradiction argument, respectively. We demonstrate numerically that the model could produce phenomena of swirling vortex including boundary layer pumping and two-celled vortex that are observed in potential line vortex interacting with a plane and in a tornado.

AB - In this article, we study theoretically and numerically the interaction of a vortex induced by a rotating cylinder with a perpendicular plane. We show the existence of weak solutions to the swirling vortex models by using the Hopf extension method, and by an elegant contradiction argument, respectively. We demonstrate numerically that the model could produce phenomena of swirling vortex including boundary layer pumping and two-celled vortex that are observed in potential line vortex interacting with a plane and in a tornado.

KW - Navier-Stokes

KW - Tornado

KW - axisymmetric flow

KW - boundary layer

KW - swirling vortex

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JO - Communications in Computational Physics

JF - Communications in Computational Physics

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ER -

Interaction of a Vortex Induced by a Rotating Cylinder with a Plane

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Keywords

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