The ability to predict accurately fluid-structure interaction problems is of fundamental importance for design, analysis and reconstruction in many areas of mechanical and civil engineering. In order to characterize the effects of an accidental or intentional explosion close to a building, a coupled fluid-structure interaction calculation has to be carried out. The initial timescales of such events dictate the use of fluid and structure codes based on explicit timescales, and able to deal with strong shocks and large deformations and cracking. The present paper describes the coupling of two codes that are suitable for this class of problems: FEFLO, a general purpose CFD solver with SIMPACT, a general purpose explicit CSD code.Postprint (published version
Luis Potosí, S.L.P.; México.This work aims to obtain the limiting current for an electrodialysis cell in function of linear velocity and salt concentration. The current was read at each velocity for different KCl concentrations. The limiting currents were obtained from dilute resistancereciprocal of current curves. Fitting the limiting current density (i lim ) values vs. linear velocity (u) for each KCl concentration, allowed to determine the coefficients m and n of the empirical correlation i lim = mu n C S d . n varied from 24994 to 12208 A s n m 1-n keq -1 and n between 0.41 -0.39. n showed a little dependence on hydrodynamic conditions and a strong reliance on salt concentration, whereas m is affected only by the salt concentration.
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