Effects of coal blending in electrostatic precipitation efficiency—Inner Mongolia, China

Qi, Liqiang; Xu, Jun; Yao, Yuan; Zhang, Yajuan

Effects of coal blending in electrostatic precipitation efficiency—Inner Mongolia, China

2018

Qi, Liqiang | Xu, Jun | Yao, Yuan | Zhang, Yajuan

Based on this study, the Al₂O₃ content of Jungar coal ash is over 45%, and the resistivity of high-Al₂O₃ ash in Jungar reaches up to 10¹² Ω·cm. These results seriously influenced the electric characteristics of fly ash, and the collection efficiency of electrostatic precipitators (ESPs) evidently decreased. To facilitate the effective collection of fine particle in the flue gas generated before and after coal blending via ESP, the fly ash obtained from a power plant electrostatic precipitation was analyzed in terms of resistivity, size distribution, and cohesive force through a portable dust electrical resistivity test instrument, Bahco centrifuge, and a cohesive force test apparatus invented by the researchers. The mixed ratio of else coal is higher than 50%, the resistivity of the fly ash in the flue gas was lowered to approximately two orders of magnitude, and the size distribution showed an evident decrease in the PM2.5 and PM10 content in fly ash. In addition, the adhesive force and efficiency increase from 95.9 to 99.5% in the electrostatic precipitation. Therefore, the combustion of blending coal is an effective approach to improve the efficiency of ESP used to collect high-Al₂O₃ fly ash.

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