Beschreibung:
<jats:p>The population balance equation finds many applications in modelling poly-dispersed systems arising in many
engineering applications such as aerosols dynamics, crystallization, precipitation, granulation, liquid-liquid, gas-liquid,
combustion processes and microbial systems. The population balance lays down a modern approach for modelling the
complex discrete behaviour of such systems. Due to the industrial importance of liquid-liquid extraction columns for the
separation of many chemicals that are not amenable for separation by distillation, a Windows based program called
LLECMOD is developed. Due to the multivariate nature of the population of droplets in liquid –liquid extraction columns
(with respect to size and solute concentration), a spatially distributed population balance equation is developed. The basis
of LLECMOD depends on modern numerical algorithms that couples the computational fluid dynamics and population
balances. To avoid the solution of the momentum balance equations (for the continuous and discrete phases), experimental
correlations are used for the estimation of the turbulent energy dissipation and the slip velocities of the moving droplets
along with interaction frequencies of breakage and coalescence. The design of LLECMOD is flexible in such a way that
allows the user to define droplet terminal velocity, energy dissipation, axial dispersion, breakage and coalescence frequencies
and the other internal geometrical details of the column. The user input dialog makes the LLECMOD a user-friendly
program that enables the user to select the simulation parameters and functions easily. The program is reinforced by a parameter
estimation package for the droplet coalescence models. The scale-up and simulation of agitated extraction columns
based on the populations balanced model leads to the main application of the simulation tool.</jats:p>