Mass transfer around a slender drop in a nonlinear extensional flow
Mass transfer around a slender drop in a nonlinear extensional and creeping flow is theoretically studied. The fluid mechanics problem is governed by three dimensionless parameters: The capillary number (Ca ≫ 1), the viscosity ratio (λ ≪ 1), and the nonlinear intensity of the flow (|E| ≪ 1). The tra...
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De Gruyter
2019-01-01
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| Series: | Nonlinear Engineering |
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| Online Access: | https://doi.org/10.1515/nleng-2018-0019 |
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doaj-9c54ee8d4c104b9ca7b5fe8afb26eb3f2021-09-06T19:21:07ZengDe GruyterNonlinear Engineering2192-80102192-80292019-01-018111712610.1515/nleng-2018-0019nleng-2018-0019Mass transfer around a slender drop in a nonlinear extensional flowFavelukis Moshe0Department of Chemical Engineering, Shenkar – College of Engineering and Design, Ramat-Gan, 5252626, IsraelMass transfer around a slender drop in a nonlinear extensional and creeping flow is theoretically studied. The fluid mechanics problem is governed by three dimensionless parameters: The capillary number (Ca ≫ 1), the viscosity ratio (λ ≪ 1), and the nonlinear intensity of the flow (|E| ≪ 1). The transfer of mass around such a drop is studied for the two asymptotic cases of large and zero Peclet numbers (Pe). The results show that as the capillary number increases, the drop becomes longer, thinner, its surface area increases, leading to larger mass transfer rates, especially at large Peclet numbers, since then convection contributes to the overall mass transfer as well. Taking a slender inviscid drop (λ = 0) in a linear extensional flow (E = 0) as our reference case, we find that the addition of nonlinear effects to the flow sometimes increases (Eλ−1Ca−2 < 64/9) and sometimes decreases (Eλ−1Ca−2 > 64/9) the rate of mass transfer.https://doi.org/10.1515/nleng-2018-0019creeping flowdropfluid mechanicsmass transfernonlinear flows |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Favelukis Moshe |
| spellingShingle |
Favelukis Moshe Mass transfer around a slender drop in a nonlinear extensional flow Nonlinear Engineering creeping flow drop fluid mechanics mass transfer nonlinear flows |
| author_facet |
Favelukis Moshe |
| author_sort |
Favelukis Moshe |
| title |
Mass transfer around a slender drop in a nonlinear extensional flow |
| title_short |
Mass transfer around a slender drop in a nonlinear extensional flow |
| title_full |
Mass transfer around a slender drop in a nonlinear extensional flow |
| title_fullStr |
Mass transfer around a slender drop in a nonlinear extensional flow |
| title_full_unstemmed |
Mass transfer around a slender drop in a nonlinear extensional flow |
| title_sort |
mass transfer around a slender drop in a nonlinear extensional flow |
| publisher |
De Gruyter |
| series |
Nonlinear Engineering |
| issn |
2192-8010 2192-8029 |
| publishDate |
2019-01-01 |
| description |
Mass transfer around a slender drop in a nonlinear extensional and creeping flow is theoretically studied. The fluid mechanics problem is governed by three dimensionless parameters: The capillary number (Ca ≫ 1), the viscosity ratio (λ ≪ 1), and the nonlinear intensity of the flow (|E| ≪ 1). The transfer of mass around such a drop is studied for the two asymptotic cases of large and zero Peclet numbers (Pe). The results show that as the capillary number increases, the drop becomes longer, thinner, its surface area increases, leading to larger mass transfer rates, especially at large Peclet numbers, since then convection contributes to the overall mass transfer as well. Taking a slender inviscid drop (λ = 0) in a linear extensional flow (E = 0) as our reference case, we find that the addition of nonlinear effects to the flow sometimes increases (Eλ−1Ca−2 < 64/9) and sometimes decreases (Eλ−1Ca−2 > 64/9) the rate of mass transfer. |
| topic |
creeping flow drop fluid mechanics mass transfer nonlinear flows |
| url |
https://doi.org/10.1515/nleng-2018-0019 |
| work_keys_str_mv |
AT favelukismoshe masstransferaroundaslenderdropinanonlinearextensionalflow |
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1717775179968413696 |