• شماره ركورد كنفرانس
    4046
  • عنوان مقاله

    A CFD study of industrial double-cyclone in HDPE drying process

  • عنوان به زبان ديگر
    A CFD study of industrial double-cyclone in HDPE drying process
  • پديدآورندگان

    S.A. Razavi Abolfazl razavialavi@yahoo.com University of Kashan , Nemati Lay2 Ebrahim enemati@kashanu.ac.ir University of Kashan , Alizadeh Makhmali Zahra Zahra_alizade1021@yahoo.com University of Kashan

  • تعداد صفحه
    8
  • كليدواژه
    Keywords: CFD , HDPE particles , double , cyclone , pressure drop
  • سال انتشار
    1396
  • عنوان كنفرانس
    چهارمين كنفرانس بين المللي نوآوري هاي اخير در شيمي و مهندسي شيمي
  • زبان مدرك
    انگليسي
  • چكيده فارسي
    ABSTRACT Double-cyclone in fluidized bed drying is an important equipment which reflects the conditions of drying in HDPE slurry process. Cyclone is an important unite of fluidzied bed drying in order to move the solid particles outward to its wall. Therefore, flow pattern created in fluidized bed will affect industrial cyclones installed in dryer for dust removing. Pressure drop of the cyclones is an effective parameter represents the drying behavior. Substantially, geometry of cyclone, inlet flow rate of gas, density and particle size distribution (PSD) can affect the pressure drop value. Fluidized bed hydrodynamic regime is very complex and must be understood to improve fluidized bed operations through theoretical, industrial and CFD study of double-cyclone. Pressure drop is introduced as parameter related to the cyclone efficiency can be calculated with ANSYS Fluent software in the Euelerian-Lagrangian framework with RNG k-ɛ turbulence model used as a mathematical method. Proper pressure drop concluded from industrial experiments and CFD calculation shows good fluidization of HDPE particles in the bed of nitrogen and powder to reach the best fluidized bed situation and suitable quality of HDPE powdery product.
  • چكيده لاتين
    Double-cyclone in fluidized bed drying is an important equipment which reflects the conditions of drying in HDPE slurry process. Cyclone is an important unite of fluidzied bed drying in order to move the solid particles outward to its wall. Therefore, flow pattern created in fluidized bed will affect industrial cyclones installed in dryer for dust removing. Pressure drop of the cyclones is an effective parameter represents the drying behavior. Substantially, geometry of cyclone, inlet flow rate of gas, density and particle size distribution (PSD) can affect the pressure drop value. Fluidized bed hydrodynamic regime is very complex and must be understood to improve fluidized bed operations through theoretical, industrial and CFD study of double-cyclone. Pressure drop is introduced as parameter related to the cyclone efficiency can be calculated with ANSYS Fluent software in the Euelerian-Lagrangian framework with RNG k-ɛ turbulence model used as a mathematical method. Proper pressure drop concluded from industrial experiments and CFD calculation shows good fluidization of HDPE particles in the bed of nitrogen and powder to reach the best fluidized bed situation and suitable quality of HDPE powdery product.
  • كشور
    ايران