首页|Enhancing fly ash utilization in backfill materials treated with CO2 carbonation under ambient conditions

Enhancing fly ash utilization in backfill materials treated with CO2 carbonation under ambient conditions

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The environmental concerns resulting from coal-fired power generation that produces large amounts of CO2 and fly ash are of great interest.To mitigate,this study aims to develop a novel carbonated CO2-fly ash-based backfill(CFBF)material under ambient conditions.The performance of CFBF was investigated for different fly ash-cement ratios and compared with non-CO2 reacted samples.The fresh CFBF slurry conformed to the Herschel-Bulkley model with shear thinning characteristics.After carbonation,the yield stress of the fresh slurry increased significantly by lowering fly ash ratio due to gel formation.The setting times were accelerated,resulting in approximately 40.6%of increased early strength.The final strength decreased when incorporating a lower fly ash ratio(50%and 60%),which was related to the existing heterogeneous pores caused by rapid fluid loss.The strength increased with fly ash content above 70%because additional C-S(A)-H and silica gels were characterized to precipitate on the grain surface,so the binding between particles increased.The C-S(A)-H gel was developed through the pozzolanic reac-tion,where CaCO3 was the prerequisite calcium source obtained in the CO2-fly ash reaction.Furthermore,the maximum CO2 uptake efficiency was 1.39 mg-CO2/g-CFBF.The CFBF material is feasible to co-dispose CO2 and fly ash in the mine goaf as negative carbon backfill materials,and simultaneously mitigates the strata movement and water lost in post-subsurface mining.

Fly ash utilizationCO2 carbonationAmbient conditionsWater conservative backfill miningNegative carbon backfill materials

Ichhuy Ngo、Liqiang Ma、Jiangtao Zhai、Yangyang Wang

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Key Laboratory of Deep Coal Resource Mining,China University of Mining&Technology,Xuzhou 221116,China

National Natural Science Foundation of ChinaFundamental Research Funds of the Central Universities

518742802021ZDPY0211

2023

矿业科学技术学报(英文版)
中国矿业大学

矿业科学技术学报(英文版)

CSTPCDCSCD北大核心EI
影响因子:1.222
ISSN:2095-2686
年,卷(期):2023.33(3)
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