Movie:Thermal Mixing at Channel Confluence: Difference between revisions
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|Upload movie=30m9jPQvtgA | |Upload movie=30m9jPQvtgA | ||
|Upload image movie=RiverConfluenceThermalMix.png | |Upload image movie=RiverConfluenceThermalMix.png | ||
|Caption movie=Thermal Mixing at Channel Confluence | |Caption movie=Thermal Mixing at Channel Confluence | ||
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|Movie keywords=Thermal mixing | |Movie keywords=Thermal mixing | ||
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|Animation model name=3D Detached Eddy Simulations | |Animation model name=3D Detached Eddy Simulations | ||
|First name contributor=George | |First name contributor=George | ||
|Last name contributor=Constantinescu | |Last name contributor=Constantinescu | ||
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|One-line movie description=Thermal Mixing at Channel Confluence | |One-line movie description=Thermal Mixing at Channel Confluence | ||
|Extended movie description=A small river confluence in Illinois with an asymmetrical confluence and a concordant bed. | |Extended movie description=A small river confluence in Illinois with an asymmetrical confluence and a concordant bed. | ||
The different cross-sections in the example focus on mixing of rivers with different water temperatures (thermal mixing). The large-scale engulfing by the ML eddies promotes mixing. The large-scale oscillations of SOV cells play an important role in the mixing between the two streams. | The different cross-sections in the example focus on mixing of rivers with different water temperatures (thermal mixing). The large-scale engulfing by the ML eddies promotes mixing. The large-scale oscillations of SOV cells play an important role in the mixing between the two streams. | ||
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|Theory movie=Confluences are a common element of river networks, especially in the lower reaches and the deltaic floodplain. They are characterized by large-scale turbulent motions. Confluences are even more common in braided river networks, and play an important role in reworking and transporting bedload material. | |Theory movie=Confluences are a common element of river networks, especially in the lower reaches and the deltaic floodplain. They are characterized by large-scale turbulent motions. Confluences are even more common in braided river networks, and play an important role in reworking and transporting bedload material. | ||
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Latest revision as of 16:35, 21 June 2017
Information Page: Thermal Mixing at Channel Confluence
Play Animation
Thermal Mixing at Channel Confluence
Key Attributes
| Domain: | terrestrial, hydrology |
| Keywords: | Thermal mixing |
| Model name: | 3D Detached Eddy Simulations |
| Name: | George, Constantinescu |
| Where: | small river confluence in Illinois |
| When: | minutes |
Short Description
Grade level: Graduate / Professional
Statement: Thermal Mixing at Channel Confluence
Abstract: A small river confluence in Illinois with an asymmetrical confluence and a concordant bed. The different cross-sections in the example focus on mixing of rivers with different water temperatures (thermal mixing). The large-scale engulfing by the ML eddies promotes mixing. The large-scale oscillations of SOV cells play an important role in the mixing between the two streams.
Theory
River confluence example
Confluences are a common element of river networks, especially in the lower reaches and the deltaic floodplain. They are characterized by large-scale turbulent motions. Confluences are even more common in braided river networks, and play an important role in reworking and transporting bedload material.
Links
References
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