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Flow Fields in Stirred Vessels Depending on Different Internal Heat Exchangers and Vessel Bottoms
This study provides the influence of different heat exchanger internals (helical pipe coils, heating plugs, pipe registers) and reactor bottom shapes (torispherical/dished (Kloepper‐shape), hemispherical, and flat) on the flow field, the turbulent kinetic energy, and the ratio of tangential flow in stirred vessels, based on extensive stereo PIV measurement series in refractive index‐matched, optically completely accessible systems. The investigations impressively show advantages and disadvantages of the various equipment, which have a massive influence on both heat transport and the flow.
Flow Fields in Stirred Vessels Depending on Different Internal Heat Exchangers and Vessel Bottoms
This study provides the influence of different heat exchanger internals (helical pipe coils, heating plugs, pipe registers) and reactor bottom shapes (torispherical/dished (Kloepper‐shape), hemispherical, and flat) on the flow field, the turbulent kinetic energy, and the ratio of tangential flow in stirred vessels, based on extensive stereo PIV measurement series in refractive index‐matched, optically completely accessible systems. The investigations impressively show advantages and disadvantages of the various equipment, which have a massive influence on both heat transport and the flow.
Flow Fields in Stirred Vessels Depending on Different Internal Heat Exchangers and Vessel Bottoms
Jaehrling, Katja (author) / Schultz, Heyko Juergen (author)
Chemie Ingenieur Technik ; 91 ; 1281-1292
2019-09-01
12 pages
Article (Journal)
Electronic Resource
English
Comparison of different surface and flow forms for heat exchangers
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