Heat transfer through the interface and flow regimes in liquid bridge subjected to co-axial gas flow
par Gaponenko, Yuri 
;Shevtsova, Valentina
Référence Microgravity, science and technology, 24, 4, page (297-306)
Publication Publié, 2012-09
;Shevtsova, Valentina Référence Microgravity, science and technology, 24, 4, page (297-306)
Publication Publié, 2012-09
Article révisé par les pairs
| Résumé : | We present results of an extensive numerical study on the thermocapillary (Marangoni) convection and a heat transfer through the interface in a liquid bridge of Pr = 68. The geometry of the physical problem is a cylindrical and non-deformable liquid bridge concentrically surrounded by an annular gas channel under conditions of zero gravity. The gas flow is co- or counter-directed with respect to the Marangoni flow. The forced gas flow along the interface provides two actions: via shear stresses and heat exchange. Usually the cooling of the interface enhances the flow while the heating slows down. This general trend may not hold when shear and thermocapillary stresses are comparable. The results show that when gas enters from the cold side the heat transfer through the interface is considerably larger than that when gas enters from the hot side. © Springer Science+Business Media B.V. 2012. |
