Flow reversals in thermally driven turbulence

Kazuyasu Sugiyama; Rui Ni; Richard J.A.M. Stevens; Tak Shing Chan; Sheng Qi Zhou; Heng Dong Xi; Chao Sun; Siegfried Grossmann; Ke Qing Xia; Detlef Lohse

doi:10.1103/PhysRevLett.105.034503

Flow reversals in thermally driven turbulence

Kazuyasu Sugiyama, Rui Ni, Richard J.A.M. Stevens, Tak Shing Chan, Sheng Qi Zhou, Heng Dong Xi, Chao Sun, Siegfried Grossmann, Ke Qing Xia, Detlef Lohse

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

189 Scopus citations

Abstract

We analyze the reversals of the large-scale flow in Rayleigh-Bénard convection both through particle image velocimetry flow visualization and direct numerical simulations of the underlying Boussinesq equations in a (quasi-) two-dimensional, rectangular geometry of aspect ratio 1. For medium Prandtl number there is a diagonal large-scale convection roll and two smaller secondary rolls in the two remaining corners diagonally opposing each other. These corner-flow rolls play a crucial role for the large-scale wind reversal: They grow in kinetic energy and thus also in size thanks to plume detachments from the boundary layers up to the time that they take over the main, large-scale diagonal flow, thus leading to reversal. The Rayleigh vs Prandtl number space is mapped out. The occurrence of reversals sensitively depends on these parameters.

Original language	English
Article number	034503
Journal	Physical Review Letters
Volume	105
Issue number	3
DOIs	https://doi.org/10.1103/PhysRevLett.105.034503
State	Published - 16 Jul 2010
Externally published	Yes

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title = "Flow reversals in thermally driven turbulence",

abstract = "We analyze the reversals of the large-scale flow in Rayleigh-B{\'e}nard convection both through particle image velocimetry flow visualization and direct numerical simulations of the underlying Boussinesq equations in a (quasi-) two-dimensional, rectangular geometry of aspect ratio 1. For medium Prandtl number there is a diagonal large-scale convection roll and two smaller secondary rolls in the two remaining corners diagonally opposing each other. These corner-flow rolls play a crucial role for the large-scale wind reversal: They grow in kinetic energy and thus also in size thanks to plume detachments from the boundary layers up to the time that they take over the main, large-scale diagonal flow, thus leading to reversal. The Rayleigh vs Prandtl number space is mapped out. The occurrence of reversals sensitively depends on these parameters.",

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AU - Sugiyama, Kazuyasu

AU - Ni, Rui

AU - Stevens, Richard J.A.M.

AU - Chan, Tak Shing

AU - Zhou, Sheng Qi

AU - Xi, Heng Dong

AU - Sun, Chao

AU - Grossmann, Siegfried

AU - Xia, Ke Qing

AU - Lohse, Detlef

PY - 2010/7/16

Y1 - 2010/7/16

N2 - We analyze the reversals of the large-scale flow in Rayleigh-Bénard convection both through particle image velocimetry flow visualization and direct numerical simulations of the underlying Boussinesq equations in a (quasi-) two-dimensional, rectangular geometry of aspect ratio 1. For medium Prandtl number there is a diagonal large-scale convection roll and two smaller secondary rolls in the two remaining corners diagonally opposing each other. These corner-flow rolls play a crucial role for the large-scale wind reversal: They grow in kinetic energy and thus also in size thanks to plume detachments from the boundary layers up to the time that they take over the main, large-scale diagonal flow, thus leading to reversal. The Rayleigh vs Prandtl number space is mapped out. The occurrence of reversals sensitively depends on these parameters.

AB - We analyze the reversals of the large-scale flow in Rayleigh-Bénard convection both through particle image velocimetry flow visualization and direct numerical simulations of the underlying Boussinesq equations in a (quasi-) two-dimensional, rectangular geometry of aspect ratio 1. For medium Prandtl number there is a diagonal large-scale convection roll and two smaller secondary rolls in the two remaining corners diagonally opposing each other. These corner-flow rolls play a crucial role for the large-scale wind reversal: They grow in kinetic energy and thus also in size thanks to plume detachments from the boundary layers up to the time that they take over the main, large-scale diagonal flow, thus leading to reversal. The Rayleigh vs Prandtl number space is mapped out. The occurrence of reversals sensitively depends on these parameters.

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Flow reversals in thermally driven turbulence

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