Numerical simulation of fluid-structure interaction in a stirred vessel equipped with an anchor impeller

Abstract: A coupling algorithm is used to compute the equilibrium of a flexible anchor impeller in a stirred vessel. This coupling algorithm is based on a partitioned approach, which consists of three relatively independent modules: the computational fluid dynamics (CFD), the computational structure dynamics (CSD) and the interface. In the CFD module, the Euler formulation was used to account for the moving boundary. In the CSD module, the updated Lagrangian formulation for solving the motion of non-linear structure was… Show more

“…This solver makes use of the Updated Lagrangian technique (Karray et al, 2011;Tuković and Jasak, 2007;Pita and Felicelli, 2010), wherein the updated displacements are solved for in the current configuration and the previous time step is used as the reference configuration. To represent the momentum equation in the updated Lagrangian formulation, Eq.…”

Fluid–structure interaction analysis of a morphing vertical axis wind turbine

“…This solver makes use of the Updated Lagrangian technique (Karray et al, 2011;Tuković and Jasak, 2007;Pita and Felicelli, 2010), wherein the updated displacements are solved for in the current configuration and the previous time step is used as the reference configuration. To represent the momentum equation in the updated Lagrangian formulation, Eq.…”

Fluid–structure interaction analysis of a morphing vertical axis wind turbine

“…Karray et al [22] analyzed the flow-solid coupling behavior of a flexible anchor agitator and found that the fluid has an important influence on flexible paddle deformation. Campbell and Paterson [23] studied the flow-solid coupling motion behavior in flexible turbines and observed that the deformation of flexible paddles could induce the coupling movement of flow and impeller paddles.…”

Enhancement of liquid–liquid mixing in a mixer-settler by a double rigid-flexible combination impeller

“…Stirring vessels are devices that find extensive applications particularly in chemical, food and biological process industries. Nowadays, numerical simulations are completed with experimental study to construct a better knowledge about the flow characteristics in a stirred vessel [1][2][3][4][5][6][7][8]. Various methods and techniques may be employed when achieving experimental study.…”

PIV Measurements to Study the Effect of the Reynolds Number on the Hydrodynamic Structure in a Baffled Vessel Stirred by a Rushton Turbine