• Title of article

    A new technique to determine rate constants for growth and agglomeration with size- and time-dependent nuclei formation

  • Author/Authors

    Warnecke، Gerald نويسنده , , Peglow، Mirko نويسنده , , Kumar، Jitendra نويسنده , , Heinrich، Stefan نويسنده , , Morl، Lothar نويسنده ,

  • Issue Information
    دوهفته نامه با شماره پیاپی سال 2006
  • Pages
    -281
  • From page
    282
  • To page
    0
  • Abstract
    Fluidized bed spray agglomeration is a particle size enlargement process where particles stick together with the help of spraying binder. High impact forces between particles lead to attrition. Attrition may be modeled as poly-disperse nucleation. Furthermore, particulate event like over-spray leads to the formation of particles in a wide range of volume. A new technique for the determination of agglomeration, growth and nucleation parameters is presented in this work. The model is based on a previous approach which takes mono disperse nuclei formation in the smallest class into account. Frequently in crystallization processes, nucleation is assumed to be mono-disperse. The technique presented here incorporates nuclei formation in a certain range of volume. It is quite general and applicable to consider size- and time-dependent nuclei formation. For two particular cases of growth and agglomeration including sizedependent nuclei formation, simulation data was generated by continuous feeding of nuclei in a certain range to demonstrate the capability of parameter extraction of the model. Further, the new technique is applied to extract rate constants from experimental data measured during fluidized bed spray agglomeration. This technique is also useful for the prediction of bimodal behavior of particle size distributions (PSD).
  • Keywords
    Population balance , Agglomeration , Kinetics , growth
  • Journal title
    CHEMICAL ENGINEERING SCIENCE
  • Serial Year
    2006
  • Journal title
    CHEMICAL ENGINEERING SCIENCE
  • Record number

    101784