Particle Holdup and Average Residence Time in the Cyclone of a CFB Boiler

Abstract

AbstractParticle holdup and the average residence time in the cyclone of a Circulating Fluidized Bed (CFB) boiler are important information for describing events post‐combustion in the cyclone that often lead to a noticeable increase in the temperature of the flue gas. The existing results for the variation of particle average residence time with fluidizing gas velocity are contradictory since they were obtained under different operation conditions. A cold CFB apparatus made of plexiglass was established with a riser of 5 m in height and 0.2 m in diameter and equipped with a standard Lapple cyclone. The particle holdup was directly measured by the mass in the cyclone when the system was shut down. The solid concentration at the cyclone inlet was kept in the range generally used in CFB boilers. The experimental results showed that the particle holdup in the cyclone was equal to ca. 10–40 % of the corresponding bed material in the riser and that it increases monotonously with both the fluidizing gas velocity and the initial static bed height, and approximately linearly with the solid circulation rate. In addition, within the experimental conditions, the cyclone pressure drop increases monotonously with particle holdup. It was found that the average residence time of the particles either increased or decreased linearly with the fluidizing gas velocity, depending on the initial static bed height. Nevertheless, both variation rates were very small. In a view of engineering applications, the average residence time of the particles in the cyclone is insignificantly affected by the fluidizing gas velocity, initial bed inventory and solid circulation rate, within the range of experimental conditions examined.