2017
DOI: 10.1016/j.ijheatmasstransfer.2017.01.016
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Numerical simulations of a line plume impinging on a ceiling in cold fresh water

Abstract: Laminar plumes from a line source of warm water at the base of a shallow, homogeneous body of cold water (below the temperature of maximum density)were simulated by a computational model. The plume water undergoes buoyancy reversal as it mixes with the cold ambient. If this occurs before the plume has reached the ceiling of the domain, the plume flaps from side to side. Otherwise, it spreads along the ceiling and then sinks, with a vortex enclosed between the rising plume and the sinking flow. Some of the dens… Show more

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Cited by 7 publications
(30 citation statements)
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References 18 publications
(30 reference statements)
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“…Where the downwards velocities as recorded indicates the process where fluid that have mixed up to a temperature ϕ < 2 starts to sink at that level. Similar downwards velocities were also recorded by George & Kay [15] at some point close to the surface when the authors considered plumes that impinge on a ceiling through warm discharge.…”
Section: (G) and (H))supporting
confidence: 81%
See 1 more Smart Citation
“…Where the downwards velocities as recorded indicates the process where fluid that have mixed up to a temperature ϕ < 2 starts to sink at that level. Similar downwards velocities were also recorded by George & Kay [15] at some point close to the surface when the authors considered plumes that impinge on a ceiling through warm discharge.…”
Section: (G) and (H))supporting
confidence: 81%
“…Such a lighter fluid is usually unsteady therefore, as it penetrates the ambient fluid there will be some degree of Rayleigh-Taylor instabilities which will lead to the production of denser fluid. During this process, any mixture that have mixed up to the Tm or a temperature closed to it will descend from the free surface to the floor even as the most buoyant fluid continue to spread outwards as surface gravity current [15,16]. At this point, the mixed water which is denser than the original water masses will in turn spread outwards with a leading tip or head in the same direction as that of the surface current.…”
Section: Introductionmentioning
confidence: 99%
“…Such scenarios are also evident in lakes, especially in holomictic lakes and warm discharge from thermoelectric power generating plants. We can see [2,7,16,17] for more insights and a more detailed literature review in other to minimise repetition. However, density currents flows through lockexchange whereby density variation is as a result of temperature difference had not received much attention as compared to that with saltwater that is widely used [6].…”
Section: Introductionmentioning
confidence: 99%
“…This behaviour is also evident in lakes, especially in holomictic lakes and warm discharge from thermoelectric power generating plants. We can see [5,19,20] for more insights and a more detailed literature review in other to minimise repetition. But then, density currents flows through lock-exchange whereby density variation is as a result of temperature difference had not received much attention as compared to that with salt water that is widely used [2,8].…”
Section: Introductionmentioning
confidence: 99%