|
|
|
Botond Szilágyi, Réka Barabás, Béla G. Lakatos
Pág. 138 - 144
This paper presents a population balance model for describing the temporal evolution of the particle size distribution of a precipitate produced in a laboratory scale tubular crystallizer, including nucleation, growth and agglomeration of crystals. The q...
ver más
|
|
|
|
|
|
|
Botond Szilágyi, Béla Lakatos
Pág. 151 - 158
In the paper, batch cooling crystallization of plate-like crystals is investigated by numerical experimentation. The population balance approach is used to describe a seeded crystallization process, developing a bivariate morphological population balance...
ver más
|
|
|
|
|
|
|
Zoltán Süle, Béla G. Lakatos, Csaba Mihálykó, Éva Orbán-Mihálykó
Pág. 3 - 9
A compartment/population balance model is presented for describing heat transfer in gas-solid fluidized bed heat exchangers, modelling the particle-particle and particle-surface heat transfers by collisions. The results of numerical experimentation, obta...
ver más
|
|
|
|