Gravity affected break-up of laminar threads at low gas-relative-velocities
Due to gravity, initially slow threads are significantly attenuated until break-up occurs. In our experiments these threads are further subject to a gas cross-flow, covering the range of low gas-relative-velocities (<10 m/s). Thread contour data as well as information on the droplet size distribu...
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| Published in | Chemical engineering science Vol. 69; no. 1; pp. 181 - 192 |
|---|---|
| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
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Elsevier Ltd
13.02.2012
Elsevier |
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| ISSN | 0009-2509 1873-4405 |
| DOI | 10.1016/j.ces.2011.10.021 |
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| Abstract | Due to gravity, initially slow threads are significantly attenuated until break-up occurs. In our experiments these threads are further subject to a gas cross-flow, covering the range of low gas-relative-velocities (<10
m/s). Thread contour data as well as information on the droplet size distribution (DSD), formed under these conditions, are obtained by a shadow-graphic method. The experimental results on the break-up length of the threads confirm the results of former investigations. In contrast, for the mean drop size an unexpected dependency on the gas-relative-velocity is observed, as larger droplets were found for intensified cross-flows. The width of the DSD was found to be also sensitive on the gas-relative-velocity. Even slightly intensified gas cross-flows distinctly increase the poly-dispersity of the DSD.
► Even low gas-relative-velocities influence the break-up of liquid threads. ► Break-up length, mean drop size and the width of DSD depend on the gas-influence. ► Gas–liquid interaction causes larger mean drop size and a broader distribution. ► In technical applications the gas-influence on the threads should be prevented. |
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| AbstractList | Due to gravity, initially slow threads are significantly attenuated until break-up occurs. In our experiments these threads are further subject to a gas cross-flow, covering the range of low gas-relative-velocities (<10m/s). Thread contour data as well as information on the droplet size distribution (DSD), formed under these conditions, are obtained by a shadow-graphic method. The experimental results on the break-up length of the threads confirm the results of former investigations. In contrast, for the mean drop size an unexpected dependency on the gas-relative-velocity is observed, as larger droplets were found for intensified cross-flows. The width of the DSD was found to be also sensitive on the gas-relative-velocity. Even slightly intensified gas cross-flows distinctly increase the poly-dispersity of the DSD. Due to gravity, initially slow threads are significantly attenuated until break-up occurs. In our experiments these threads are further subject to a gas cross-flow, covering the range of low gas-relative-velocities (<10 m/s). Thread contour data as well as information on the droplet size distribution (DSD), formed under these conditions, are obtained by a shadow-graphic method. The experimental results on the break-up length of the threads confirm the results of former investigations. In contrast, for the mean drop size an unexpected dependency on the gas-relative-velocity is observed, as larger droplets were found for intensified cross-flows. The width of the DSD was found to be also sensitive on the gas-relative-velocity. Even slightly intensified gas cross-flows distinctly increase the poly-dispersity of the DSD. ► Even low gas-relative-velocities influence the break-up of liquid threads. ► Break-up length, mean drop size and the width of DSD depend on the gas-influence. ► Gas–liquid interaction causes larger mean drop size and a broader distribution. ► In technical applications the gas-influence on the threads should be prevented. |
| Author | Möller, Arne Dirks, Martin Mescher, Axel Walzel, Peter |
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| Cites_doi | 10.1017/S0022112094000480 10.1002/ceat.201100138 10.1017/S0022112002008108 10.1002/(SICI)1521-4125(199804)21:4<349::AID-CEAT349>3.0.CO;2-9 10.1016/j.ijmultiphaseflow.2004.04.002 10.1002/zamm.19310110207 10.1016/j.apm.2009.03.011 10.1016/j.ces.2004.02.008 10.1252/jcej.9.282 10.1112/plms/s1-10.1.4 |
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| Keywords | Gas cross-flow Fluid mechanics Multiphase flow Parameter identification Laminar thread break-up Drop Particle size Particle size distribution Crossflow Graphic method Droplet |
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| SubjectTerms | Applied sciences Chemical engineering Drop droplet size droplets Exact sciences and technology Fluid mechanics Gas cross-flow gravity Hydrodynamics of contact apparatus Laminar thread break-up Multiphase flow Parameter identification |
| Title | Gravity affected break-up of laminar threads at low gas-relative-velocities |
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