Titlebook: Handbook of Multiphase Flow Science and Technology; Guan Heng Yeoh,J. B. Joshi Living reference work 20200th edition Complex Fluids

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Multiphase Flows in Pharmaceutical Applications,therefore important to improve their efficiency through better understanding of dispersion mechanisms of powders in devices. In this aspect, numerical modeling has been playing an increasingly important role. This chapter reviews the recent progress using computational fluid dynamics (CFD) and the d

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Advances in Interface Modeling,esolution of coupled dynamics and for its treatment of surface evolution in transient CFD simulations. In an effort to improve the quality of surface representation with an efficient use of computational resource, a variety of volume methods (interface capturing) and surface methods (interface track

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Basic Theory and Conceptual Framework of Multiphase Flows,alysis of the flow system. This results in the development of a multifluid approach which solves for the conservation equations of continuous and dispersed phases. In order to better resolve the microphysics of the discrete constituents at the mesoscale, population balance allows the synthesization

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Turbulence in Multiphase Flows,n is made between the microscale description where the interface coupling between the phases is treated explicitly, and the mesoscale description where the interphase coupling is modeled. These different levels of description capture different turbulent length scales, and, hence, the multiscale natu

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Recent Advances in Modeling Gas-Liquid Flows,y Wang et al. (Chem Eng Sci 58:4629–4637, 2003). Numerical predictions of the void fraction, bubble size distribution, and interfacial area concentration are compared against the TOPFLOW experimental data (Lucas et al. .). Numerical results reveal that the predicted two-phase flow structure is very

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