Characterization of Gas-Solid Flow in Vibrated Fluidized Beds Operating with Natural Zeolite Powders



Characterization of gas-solid flow in conical spouted beds operating with heavy particles
Sari, Salih; Külah, Görkem; KÖKSAL, MURAT (2012-07-01)
This study presents the results of an experimental investigation of the hydrodynamics of conical spouted beds operating with high density particles. This type of spouted beds is frequently encountered in chemical vapor deposition coating of nuclear fuel elements. Measurements were performed in three 15 cm ID full circular (gamma = 30 degrees, 45 degrees, 60 degrees) and one half circular conical spouted (gamma = 30 degrees) bed with yttria-stabilized zirconia particles (d(p) = 0.5, 1 mm; rho(p) = 6050 kg/m(...
Characterization of lipid composition of wheat varieties under stress conditions
Soydan, Alper; Yücel, Meral; Öktem, Hüseyin A.; Department of Biology (1995)
Characterization of cyclic crask growth behaviour of nickel base superalloys at elevated temperatures
Arslan, Gürsoy; Doruk, Mustafa; Department of Metallurgical Engineering (1993)
Characterization of rapidly solidified Al-Fe-V-Si alloy powders
Aral, Burç; Kalkanlı, Ali; Department of Metallurgical and Materials Engineering (2001)
Characterization of local flow behaviour in conical spouted beds
Yeniçeri, Ali; Külah, Görkem; Department of Chemical Engineering (2019)
Conical spouted beds are used in various physical and chemical applications such as drying, coating, and pyrolysis of waste plastic and biomass owing to their effective feature of gas-solid contact. To design and operate these units in high efficiency, a complete understanding of the phenomena and detailed investigation of local flow structure are of paramount importance. In this study, the effects of bed design parameters (unit size, conical angle, spouting gas-inlet diameter) and operational conditions (p...
Citation Formats
G. Külah, “Characterization of Gas-Solid Flow in Vibrated Fluidized Beds Operating with Natural Zeolite Powders,” 2012, Accessed: 00, 2021. [Online]. Available: