The topology of gas jets injected beneath a surface and subject to liquid cross-flow

Gas injection into a liquid cross-flow is examined for the case where the gas is injected beneath a horizontal flat surface. For moderate Froude numbers, the gas pocket that is formed will rise toward the flow boundary under the action of buoyancy, a condition that is conducive to the formation of g...

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Published in	Journal of fluid mechanics Vol. 818; pp. 141 - 183
Main Authors	Mäkiharju, Simo A., Lee, In-Ho R., Filip, Grzegorz P., Maki, Kevin J., Ceccio, Steven L.
Format	Journal Article
Language	English
Published	Cambridge, UK Cambridge University Press 10.05.2017
Subjects	Bifurcations Boundary layers Buoyancy Cross flow Data Drag reduction Energy economics Flow Fluid mechanics Fluids Forces (mechanics) Gas injection Gas jets Gas pockets Injection Mathematical models Momentum transfer Reynolds number Sweep angle Thickness Topology wakes/jets gas/liquid flow multiphase flow
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ISSN	0022-1120 1469-7645
DOI	10.1017/jfm.2017.98

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Abstract	Gas injection into a liquid cross-flow is examined for the case where the gas is injected beneath a horizontal flat surface. For moderate Froude numbers, the gas pocket that is formed will rise toward the flow boundary under the action of buoyancy, a condition that is conducive to the formation of gas layers for friction-drag reduction on the surface. At the location of gas injection, a plume whose geometry is related to the mass and momentum flux of the injected gas and liquid cross-flow is formed, and the influence of buoyancy is minimal. However, as the gas pocket convects downstream, buoyancy brings the gas back upward to the flow boundary, and leads to the bifurcation of the pocket into two distinct branches, forming a stable ‘V’-shape. Under some conditions, the flow between the two gas branches is almost entirely liquid, while for others there exists a bubbly flow or a continuous sheet of gas between the branches. The sweep angle and cross-sectional geometry of the gas branches are related to free-stream speed and boundary-layer thickness of the liquid cross-flow, the mass-injection rate of the gas, the diameter of the injection orifice and the gas outlet mean velocity and gas–jet angle. Data for a range of experimental conditions are used to scale the flow and results are compared to numerical computations of the flow, and these data are used to illustrate the underlying flow processes responsible leading to the formation the stable and straight gas branches. A simple model based on the balance of forces around a stable gas branch is presented and used to scale the observed data, and we use the results of this analysis and the computations to discuss how the process of gas injection may interact with the formation of the stable gas pockets farther downstream.
AbstractList	Gas injection into a liquid cross-flow is examined for the case where the gas is injected beneath a horizontal flat surface. For moderate Froude numbers, the gas pocket that is formed will rise toward the flow boundary under the action of buoyancy, a condition that is conducive to the formation of gas layers for friction-drag reduction on the surface. At the location of gas injection, a plume whose geometry is related to the mass and momentum flux of the injected gas and liquid cross-flow is formed, and the influence of buoyancy is minimal. However, as the gas pocket convects downstream, buoyancy brings the gas back upward to the flow boundary, and leads to the bifurcation of the pocket into two distinct branches, forming a stable 'V'-shape. Under some conditions, the flow between the two gas branches is almost entirely liquid, while for others there exists a bubbly flow or a continuous sheet of gas between the branches. The sweep angle and cross-sectional geometry of the gas branches are related to free-stream speed and boundary-layer thickness of the liquid cross-flow, the mass-injection rate of the gas, the diameter of the injection orifice and the gas outlet mean velocity and gas-jet angle. Data for a range of experimental conditions are used to scale the flow and results are compared to numerical computations of the flow, and these data are used to illustrate the underlying flow processes responsible leading to the formation the stable and straight gas branches. A simple model based on the balance of forces around a stable gas branch is presented and used to scale the observed data, and we use the results of this analysis and the computations to discuss how the process of gas injection may interact with the formation of the stable gas pockets farther downstream.
Author	Maki, Kevin J. Filip, Grzegorz P. Ceccio, Steven L. Mäkiharju, Simo A. Lee, In-Ho R.
Author_xml	– sequence: 1 givenname: Simo A. orcidid: 0000-0002-3818-8649 surname: Mäkiharju fullname: Mäkiharju, Simo A. email: makiharju@berkeley.edu organization: Department of Mechanical Engineering, University of California, Berkeley, CA 94720, USA – sequence: 2 givenname: In-Ho R. surname: Lee fullname: Lee, In-Ho R. organization: Department of Naval Architecture and Marine Engineering, University of Michigan, Ann Arbor, MI 48109, USA – sequence: 3 givenname: Grzegorz P. surname: Filip fullname: Filip, Grzegorz P. organization: Department of Naval Architecture and Marine Engineering, University of Michigan, Ann Arbor, MI 48109, USA – sequence: 4 givenname: Kevin J. surname: Maki fullname: Maki, Kevin J. organization: Department of Naval Architecture and Marine Engineering, University of Michigan, Ann Arbor, MI 48109, USA – sequence: 5 givenname: Steven L. surname: Ceccio fullname: Ceccio, Steven L. organization: Department of Naval Architecture and Marine Engineering, University of Michigan, Ann Arbor, MI 48109, USA
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Cites_doi	10.1023/A:1012235921025 10.1080/00986448708912053 10.1017/jfm.2015.73 10.1146/annurev-fluid-120710-101115 10.1016/0021-9991(92)90240-Y 10.1115/1.4031850 10.1017/S0022112008003029 10.2478/IJNAOE-2013-0107 10.1146/annurev.fluid.35.101101.161128 10.1017/jfm.2012.588 10.1146/annurev.fluid.31.1.567 10.1017/S0022112006008688 10.1007/s003480000227 10.1146/annurev-fluid-121108-145504 10.1109/MCSE.2014.80 10.1016/0021-9991(81)90145-5
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SubjectTerms	Bifurcations Boundary layers Buoyancy Cross flow Data Drag reduction Energy economics Flow Fluid mechanics Fluids Forces (mechanics) Gas injection Gas jets Gas pockets Injection Mathematical models Momentum transfer Reynolds number Sweep angle Thickness Topology
Title	The topology of gas jets injected beneath a surface and subject to liquid cross-flow
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