A comparison of stability and accuracy of some numerical models of two-dimensional circulation

The goal when developing an in vitro-in vivo correlation (IVIVC) model is the ability to accurately predict the in vivo plasma concentration profile of a drug formulation using only its in vitro dissolution data. The prediction accuracy of any model depends on the reliability of the method used to d

The numerical solution of a model describing a two-dimensional fluidized bed is considered. The model takes the form of a hyperbolic system of conservation laws with source term, coupled with an elliptic equation for determining a streamfunction. Operator splitting is used to produce homogeneous one

## Abstract A series of two‐dimensional (2D), axisymmetric and three‐dimensional (3D) numerical flow simulations using an implicit large Eddy simulation (ILES) are carried out for gravity‐driven fluid flows. The results are compared directly with experiments undertaken to test the model. Two‐dimens

the dynamic character of two models. To this latter end, we will present dispersion analysis results first for the This paper illustrates the dominant role that numerical damping plays in the regularization of the two-phase flow models used in RELAP5 and CATHARE differential models and then the RELA