%0 Journal Article %T Computational Simulation of Marangoni Convection Under Microgravity Condition %J Scientia Iranica %I Sharif University of Technology %Z 1026-3098 %A Saidi, M.H. %A Asadi, B. %A Ahmadi, G. %D 2009 %\ 12/01/2009 %V 16 %N 6 %P - %! Computational Simulation of Marangoni Convection Under Microgravity Condition %K Marangoni convection %K Microgravity condition %K Hybrid front capturing and tracking method %K Rising bubble %K Multi-grid method %R %X In this work, the rising of a single bubble in a quiescent liquid under microgravity condition was simulated. In addition to general studies of microgravity e ects, the initiation of hydrodynamic convection, solely due to the variations of interface curvature (surface tension force) and thus the generation of shearing forces at the interfaces, was also studied. Then, the variation of surface tension due to the temperature gradient (Marangoni convection), which can initiate the onset of convection even in the absence of buoyancy, was studied. The related unsteady incompressible full Navier-Stokes equations were solved using a nite di erence method with a structured staggered grid. The interface was tracked explicitly by connected marker points via a hybrid front capturing and tracking method. A one eld approximation was used where one set of governing equations is only solved in the entire domain and di erent phases are treated as one uid with variable physical properties, while the interfacial e ects are accounted for by adding appropriate source terms to the governing equations. Also, a Multi-grid technique, in the context of the projection method, improved convergences and computational sti ness. The results show that the bubble moves in a straight path under microgravity condition, compared to the zigzag motion of bubbles in the presence of gravity. Also, in the absence of gravity, the variation of surface tension force due to interface curvature or temperature gradient can still cause the upward motion of the bubble. This phenomenon was explicitly shown in the results of this paper. %U https://scientiairanica.sharif.edu/article_3134_2a73f8e5d0908fdf6627e1fe1a1f98a6.pdf