2004
DOI: 10.1021/ie030810u
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Comprehensive Analysis of Single-Particle Growth in Heterogeneous Olefin Polymerization:  The Random-Pore Polymeric Flow Model

Abstract: In the present study, a comprehensive mathematical model is developed to analyze the effects of initial catalyst size, active site concentration, catalyst morphology (e.g., porosity, extent of prepolymerization, etc.), and hydrodynamic conditions on the growth and overheating of highly active Ziegler−Natta catalyst particles (e.g., fresh or prepolymerized) in gas-phase olefin polymerization. The generalized Stefan−Maxwell diffusion equation for porous solids is combined with the mass balances on the various mo… Show more

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Cited by 68 publications
(123 citation statements)
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“…In the present study, the external film mass transfer coefficient for the cocatalyst component in a two-phase liquid/solid system was estimated by employing a correlation proposed by Kittilsen et al [24]. Subsequently, the value of the external film mass transfer coefficient, ext , was used to estimate the molecular species concentration at the solid particle surface in a non-well-mixed system following the developments of Kanellopoulos et al [26,27]. According to these studies, the cocatalyst concentration at the catalyst particle surface exhibits exponential dependence with respect to the system energy dissipation rate which in turn depends on the energy input (i.e., stirring speed), solids concentration, and the physical (i.e., density, viscosity) and the transport properties (i.e., components diffusion coefficient in the liquid phase) of the liquid/solid system.…”
Section: +mentioning
confidence: 97%
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“…In the present study, the external film mass transfer coefficient for the cocatalyst component in a two-phase liquid/solid system was estimated by employing a correlation proposed by Kittilsen et al [24]. Subsequently, the value of the external film mass transfer coefficient, ext , was used to estimate the molecular species concentration at the solid particle surface in a non-well-mixed system following the developments of Kanellopoulos et al [26,27]. According to these studies, the cocatalyst concentration at the catalyst particle surface exhibits exponential dependence with respect to the system energy dissipation rate which in turn depends on the energy input (i.e., stirring speed), solids concentration, and the physical (i.e., density, viscosity) and the transport properties (i.e., components diffusion coefficient in the liquid phase) of the liquid/solid system.…”
Section: +mentioning
confidence: 97%
“…To assess the external and internal mass transfer limitations of the cocatalyst component during its precontacting with a Z-N spherical catalyst particle, the dynamic sorption model developed by Kanellopoulos et al [26,27] that a porous solid particle of radius is exposed at time = 0 to a liquid environment. Assuming that the initial cocatalyst concentration value at the catalyst particle is equal to zero (i.e., (0, ) = 0), the following dimensionless dynamic mass balance equation accounting for the diffusion of the cocatalyst molecules from the liquid bulk phase to the catalyst particle can be obtained:…”
Section: Modelling Of Internal and External Mass Transfer Limitationsmentioning
confidence: 99%
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