Mixing and combustion in a shallow coal‐limestone fluidized bed combustor

Abstract A model based on the Monte Carlo approach was developed to simulate the mixing and combustion behavior of a shallow coal‐limestone fluidized bed combustor. The model involved the coupling of two sub‐models: a combustion sub‐model based on the two‐phase concept of fluidization and a mixing sub‐model based on our previously developed dynamic mixing model. The combustion sub‐model considered both the volatile and char combustion. It assumed that the combustor consisted of three distinct phases, i.e., jet, bubble and emulsion, with combustion occurring only in the emulsion phase. The mixing sub‐model considered the upward or downward movement of a coal particle in the bed as being governed by certain probability laws; these laws were, in turn, affected by the bubbling hydrodynamics. In all, the combustor simulation model took into consideration the effects of coal feed rate, coal size distribution, limestone size, air flow rate and combustor temperature on the combustor behavior. The simulation results included the dynamic response of coal concentration profile, coal size distribution, coal particle elutriation rate as well as the mixing status between the coal and limestone particles.