Abstract
Flow regime transition between dilute pneumatic conveying and fast fluidization is identified for two Geldart A particles and four Geldart B particles in a novel gas-solid fluidization system configuration without exit restrictions. The results indicate that both saturation carrying capacity Gs⁎ and saturated solid fraction εs, ch strongly depend on superficial gas velocity and particle properties. Based on data from this study and literature, improved correlations for estimating Gs⁎ and εs, ch were developed. The correlations predictions agreed much better with experimental data than previously reported correlations.
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