Hydrodynamics of a dual fluidized bed gasifier

## Abstract The AER (absorption enhanced reforming) process, based on the dual fluidized bed steam gasification process, uses a bed material which, apart from its function as heat carrier, acts as a CO~2~ transporting agent and selectively transfers CO~2~ from the gasification reactor to the combus

This paper focuses on scale-up of the dynamic behavior of gas-solids fluidized bubbling reactors. An empirical approach is followed that is based on the observation that the non-linear, hydrodynamic behavior of bubbling fluidized beds is of a chaotic nature. The degree of chaos is quantified by the

A model for some liquid fluidized beds is examined. This model, suggested by experimental evidence, considers that clusters of solid particles have small oscillatory motions around some fixed points and that density perturbations (pockets) are propagating through the bed. In order to obtain informat

Pluidizecl bed grid zone model and Kunii-Levenspiel bubbling bed model were combined and applied to fluid&d bed coal gasification. In the model, local gas compositions in the grid zone were predicted and compared with our experimental results. The effects of the operational conditions on local react