Pyrolysis characteristics and stage division of red mud waste from the alumina refining process for cyclic utilization

Red mud is a kind of strongly alkaline industrial waste from the alumina refining process. A large quantity of red mud not only occupies land resources, but also pollutes the groundwater and land. In order to dispose this waste by thermal conversion process, it is crucial to understand its pyrolysis characteristics and kinetics. Based on thermogravimetric and Fourier transform infrared experiments, three main stages of red mud pyrolysis were put forward: (1) the dehydroxylation of gibbsite (Al(OH)3) into boehmite (AlOOH), (2) the decomposition of boehmite and (3) the decomposition of calcite (CaCO3). Furthermore, the reaction mechanisms corresponding to the three stages were estimated by coupling the model fitting method and model-free method: g(alpha) = ((1- alpha)- 1/ 3- 1)2, g(alpha) = (- ln(1-alpha))3 and g(alpha) = alpha + (1- alpha) ln(1- alpha), respectively. Finally, the current kinetic parameters in the three stages were validated by the comparison of previous studies. The obtained individual pyrolysis characteristics of red mud would be of great reference value for co-pyrolysis or co-combustion for red mud-based mixture.

Automated summary

Red mud is an industrial waste from alumina refining process that not only occupies land resources but also pollutes the environment. Understanding its pyrolysis characteristics and kinetics is crucial for its proper disposal. Through experiments and modeling, three stages of red mud pyrolysis and their corresponding reaction mechanisms were identified. These findings are of great importance for co-pyrolysis or co-combustion of red mud.