The JEREMI-project on thermocapillary convection in liquid bridges. Part B: Overview on impact of co-axial gas flow

V. Shevtsova; Y. Gaponenko; H. C. Kuhlmann; M. Lappa; M. Lukasser; S. Matsumoto; A. Mialdun; J. M. Montanero; K. Nishino; I. Ueno

The JEREMI-project on thermocapillary convection in liquid bridges. Part B: Overview on impact of co-axial gas flow

V. Shevtsova, Y. Gaponenko, H. C. Kuhlmann, M. Lappa, M. Lukasser, S. Matsumoto, A. Mialdun, J. M. Montanero, K. Nishino, I. Ueno

機械航空宇宙工学科

研究成果: Article › 査読

39 被引用数 (Scopus)

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Pure surface-tension-driven flow is a unique type of flow that can be controlled through external manipulation of thermal and/or mechanical boundary conditions at the free liquid surface where the entire driving force for the convection is generated. This unique feature has been exploited in recent studies for the active control of the flow instability. The use of forced coaxial gas streams has been proposed as a way to stabilize the Marangoni convection in liquid bridges in the planned space experiment JEREMI (Japanese and European Research Experiment on Marangoni Instabilities). It is aimed at understanding the mechanism of the instability and the role of the surface heat transfer and surface shear stresses. This overview presents corresponding preparatory experimental and numerical studies.

本文言語	English
ページ（範囲）	197-240
ページ数	44
ジャーナル	Fluid Dynamics and Materials Processing
巻	10
号	2
出版ステータス	Published - 2014

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title = "The JEREMI-project on thermocapillary convection in liquid bridges. Part B: Overview on impact of co-axial gas flow",

abstract = "Pure surface-tension-driven flow is a unique type of flow that can be controlled through external manipulation of thermal and/or mechanical boundary conditions at the free liquid surface where the entire driving force for the convection is generated. This unique feature has been exploited in recent studies for the active control of the flow instability. The use of forced coaxial gas streams has been proposed as a way to stabilize the Marangoni convection in liquid bridges in the planned space experiment JEREMI (Japanese and European Research Experiment on Marangoni Instabilities). It is aimed at understanding the mechanism of the instability and the role of the surface heat transfer and surface shear stresses. This overview presents corresponding preparatory experimental and numerical studies.",

author = "V. Shevtsova and Y. Gaponenko and Kuhlmann, {H. C.} and M. Lappa and M. Lukasser and S. Matsumoto and A. Mialdun and Montanero, {J. M.} and K. Nishino and I. Ueno",

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AU - Shevtsova, V.

AU - Gaponenko, Y.

AU - Kuhlmann, H. C.

AU - Lappa, M.

AU - Lukasser, M.

AU - Matsumoto, S.

AU - Mialdun, A.

AU - Montanero, J. M.

AU - Nishino, K.

AU - Ueno, I.

PY - 2014

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AB - Pure surface-tension-driven flow is a unique type of flow that can be controlled through external manipulation of thermal and/or mechanical boundary conditions at the free liquid surface where the entire driving force for the convection is generated. This unique feature has been exploited in recent studies for the active control of the flow instability. The use of forced coaxial gas streams has been proposed as a way to stabilize the Marangoni convection in liquid bridges in the planned space experiment JEREMI (Japanese and European Research Experiment on Marangoni Instabilities). It is aimed at understanding the mechanism of the instability and the role of the surface heat transfer and surface shear stresses. This overview presents corresponding preparatory experimental and numerical studies.

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The JEREMI-project on thermocapillary convection in liquid bridges. Part B: Overview on impact of co-axial gas flow

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