Instability in two-phase flows of steam
In two-phase flows of steam, when the velocity is between the equilibrium and frozen speeds of sound, the system is fundamentally unstable. Because any disturbance of the system, e.g. imposition of a small supercooling on the fluid, will cause condensation, the resulting heat release will accelerate...
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my.uniten.dspace-86712020-09-10T03:59:41Z Instability in two-phase flows of steam Bakhtar, F. Otto, S.R. Zamri, M.Y. Sarkies, J.M. In two-phase flows of steam, when the velocity is between the equilibrium and frozen speeds of sound, the system is fundamentally unstable. Because any disturbance of the system, e.g. imposition of a small supercooling on the fluid, will cause condensation, the resulting heat release will accelerate the flow and increase the supercooling and thus move the system further from thermodynamic equilibrium. But in high-speed flows of a two-phase mixture, dynamic changes affect the thermodynamic equilibrium within the fluid, leading to phase change, and the heat release resulting from condensation disturbs the flow further and can also cause the disturbances to be amplified at other Mach numbers. To investigate the existence of instabilities in such flows, the behaviour of small perturbations of the system has been examined using stability theory. It is found that, although the amplification rate is highest between the equilibrium and frozen speeds of sound, such flows are temporally unstable at all Mach numbers. © 2007 The Royal Society. 2018-02-19T04:30:57Z 2018-02-19T04:30:57Z 2008 http://dspace.uniten.edu.my/jspui/handle/123456789/8671 |
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In two-phase flows of steam, when the velocity is between the equilibrium and frozen speeds of sound, the system is fundamentally unstable. Because any disturbance of the system, e.g. imposition of a small supercooling on the fluid, will cause condensation, the resulting heat release will accelerate the flow and increase the supercooling and thus move the system further from thermodynamic equilibrium. But in high-speed flows of a two-phase mixture, dynamic changes affect the thermodynamic equilibrium within the fluid, leading to phase change, and the heat release resulting from condensation disturbs the flow further and can also cause the disturbances to be amplified at other Mach numbers. To investigate the existence of instabilities in such flows, the behaviour of small perturbations of the system has been examined using stability theory. It is found that, although the amplification rate is highest between the equilibrium and frozen speeds of sound, such flows are temporally unstable at all Mach numbers. © 2007 The Royal Society. |
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author |
Bakhtar, F. Otto, S.R. Zamri, M.Y. Sarkies, J.M. |
spellingShingle |
Bakhtar, F. Otto, S.R. Zamri, M.Y. Sarkies, J.M. Instability in two-phase flows of steam |
author_facet |
Bakhtar, F. Otto, S.R. Zamri, M.Y. Sarkies, J.M. |
author_sort |
Bakhtar, F. |
title |
Instability in two-phase flows of steam |
title_short |
Instability in two-phase flows of steam |
title_full |
Instability in two-phase flows of steam |
title_fullStr |
Instability in two-phase flows of steam |
title_full_unstemmed |
Instability in two-phase flows of steam |
title_sort |
instability in two-phase flows of steam |
publishDate |
2018 |
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http://dspace.uniten.edu.my/jspui/handle/123456789/8671 |
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1677776786888327168 |
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13.160551 |