Yaghoub Behjat scite author profile

In this paper the effects of particles configuration and particles distance on the heat transfer rate in a gas phase olefin polymerization reactor have been studied using the computational fluid dynamic (CFD) modeling approach. The goal was to determine the causes of particle overheating in this reactor. It has been shown that classic correlations such as Ranz-Marshall are sufficiently adequate when far away particles with no interactions are to be modeled. However, when particles are sufficiently close to having interactions, these correlations fail to satisfactorily predict the convective heat transfer coefficient. The results indicate an increase in particle distance leads to an increase in the Nusselt number on the particle surface. Therefore, for particles with a large distance and triangular or rotated square configurations, the local Nusselt number is closer to the Nusselt number for a single particle.

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Yaghoub Behjat

CFD modeling of hydrodynamic and heat transfer in fluidized bed reactors

CFD analysis of hydrodynamic, heat transfer and reaction of three phase riser reactor

Optimal design of drainage channel geometry parameters in vane demister liquid–gas separators

Computational and experimental investigation of CO2 capture in gas–solid bubbling fluidized bed

Heat Transfer of Polymer Particles in Gas-Phase Polymerization Reactors

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