Influence of co-processing of coal and oil shale on combustion characteristics, kinetics and ash fusion behaviour

Combustion characteristics and ash fusion behaviours of Qinghai coal (QH) and Fushun oil shale (FS) and their blends were investigated. It was found that ignition index and burnout index of the blends reached maximum for the blend with 10 wt% FS, while its comprehensive combustibility index remained nearly unchanged when compared with the coal sample. With the increase in heating rates, combustion performance of the samples improved significantly. The statistical analysis demonstrated that combustion temperature contributed significantly (about 73% of the impact ratio) to the thermogravimetric mass loss, followed by oil shale blending ratio and heating rate. In addition, there is noticeable deviation between the experimental and theoretical curves of the blends in the temperature range of 410-480 degrees C, which indicates the existence of synergistic interactions. Moreover, the lowest apparent activation energy, determined using two model-free integral methods, was found to be 64.1 kJ/mol for the blend with 10 wt% FS. In addition, slag formation and mineral transformation of different samples were determined using the thermochemical database package FactSage 6.3. For the blend with 10 wt% of FS, anorthite, hematite, diopside and quartz were found to be the main crystalline phases at high temperatures. It is shown that the addition of FS mitigated the slagging and fouling tendency of the QH coal combustion. (C) 2020 Elsevier Ltd. All rights reserved.

Automated summary

The combustion characteristics and ash fusion behaviours of Qinghai coal and Fushun oil shale, as well as their blends, were studied. It was found that the blends exhibited good combustion performance in terms of ignition and burnout indices, with combustion temperature having the most significant impact on thermogravimetric mass loss. The addition of oil shale was shown to mitigate slagging and fouling tendencies in Qinghai coal combustion.