The paper focused on the fine-grinding pretreatment of coal gasification fine slag(CGFS)from gasification settling tank in Shaanxi Yulin,China.The mechanism by which grinding promotes the flotation performance of CGFS...The paper focused on the fine-grinding pretreatment of coal gasification fine slag(CGFS)from gasification settling tank in Shaanxi Yulin,China.The mechanism by which grinding promotes the flotation performance of CGFS was explored through particle size distribution analysis,surface morphology examination,and porosity analysis.A multi-stage flotation process was employed to determine the optimal flotation regime.The experimental results demonstrated that grinding significantly reduced the overall particle size and improved the structure and composition of CGFS.After grinding,the particle size D[4,3]decreased to 47.612μm,and the average pore diameter increased by 0.1335 nm.The grinding process effectively dissociated the glassy intergrowth structures,resulting in a significant reduction in reagent consumption.With a compound collector dosage of 9 kg/t and frother dosage of 3 kg/t,the optimized flotation process—including one roughing stage and three cleaning stages—yielded a clean coal ash content of 16.96%and a tailing loss on ignition value of 2.29%,meeting the standards for Class I fly ash.展开更多
基金supported by the Fundamental Research Funds for the Central Universities(grant No.2021YQHH08)the Xinjiang Autonomous Region Key R&D Program(grant No.2024B03031)the National Natural Science Foundation of China(grant No.52104281).
文摘The paper focused on the fine-grinding pretreatment of coal gasification fine slag(CGFS)from gasification settling tank in Shaanxi Yulin,China.The mechanism by which grinding promotes the flotation performance of CGFS was explored through particle size distribution analysis,surface morphology examination,and porosity analysis.A multi-stage flotation process was employed to determine the optimal flotation regime.The experimental results demonstrated that grinding significantly reduced the overall particle size and improved the structure and composition of CGFS.After grinding,the particle size D[4,3]decreased to 47.612μm,and the average pore diameter increased by 0.1335 nm.The grinding process effectively dissociated the glassy intergrowth structures,resulting in a significant reduction in reagent consumption.With a compound collector dosage of 9 kg/t and frother dosage of 3 kg/t,the optimized flotation process—including one roughing stage and three cleaning stages—yielded a clean coal ash content of 16.96%and a tailing loss on ignition value of 2.29%,meeting the standards for Class I fly ash.
