Simulation of the L-valve in the circulating fluidized bed with a coarse-grained discrete particle method

Stable and controllable solid flow is essential in circulating fluidized bed (CFB) systems. The L -valve is a typical non -mechanical valve that can provide flexible solid feeding. The investigation of the solid circulation rate and the hydrodynamic characteristics of the L -valve is crucial to its design and operation. The gas -solid flow in the L -valve of a full -loop CFB is studied with the coarse -grained discrete particle method (EMMS-DPM). Good agreements on the solid circulation rate and the pressure drop through the L -valve are achieved between the simulated and experimental data. The solid circulation rate increases linearly with the aeration velocity until the stable particle circulation of the CFB is destroyed. The flow patterns in the horizontal section of L -valve are gas -solid slug flow above the stationary solid layer and the moving solid layer, respectively. The effects of L -valve geometric parameters on the solid flow characteristics are also investigated. The results indicate that reducing the diameter and length of the horizontal section of L -valve can improve the solid transport efficiency, especially at low aeration velocity. Besides, the solid conveying capacity and flow stability are improved when the sharp bend of Lvalve is modified to be a gradual bend. (c) 2023 Published by Elsevier B.V. on behalf of Chinese Society of Particuology and Institute of Process Engineering, Chinese Academy of Sciences.