Investigation on CO2 Sequestration Capacity of Fly Ash Mineralization and Characteristics of Preventing Coal Spontaneous Combustion in Coal Mine Goaf
ID:209
Submission ID:286 View Protection:ATTENDEE
Updated Time:2024-05-15 17:41:27
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Oral Presentation
Abstract
为有效利用粉煤灰固废,实现粉煤灰资源化利用、碳封存减排和矿山防火灭火,本文采用XRF分析了粉煤灰的成分,开展了流变实验、粉煤灰矿化CO2封存实验、热重分析实验和阻燃性能试验, 并分析了XRD和SEM工艺分析粉煤灰在矿化反应前后物理结构和形貌变化的变化。研究了粉煤灰浆的固碳能力和流动性,以及矿化粉煤灰浆对煤自燃的抑制能力。研究结果表明,CO2在矿化后以方解石的形式封存在粉煤灰表面。当使用0.5 mol/L NaHCO3作为添加剂时,粉煤灰的最佳CO2封存能力为65.12 kg/t。矿化粉煤灰浆液的流动性高于粉煤灰浆液,水灰比越低,流动性越差。水灰比为3:1的矿化粉煤灰浆具有较强的固碳能力和较高的流动性,可考虑用于矿井采空区注浆,防止火灾发生。矿化粉煤灰浆呈现出矿化效果越好,煤低温氧化阶段CO释放量越低、交叉点温度越高的规律趋势。矿化粉煤灰浆比普通粉煤灰浆具有更强的抑制煤自燃能力,为制备矿化粉煤灰浆防火材料提供了参考价值。
Keywords
Fly ash; Carbon dioxide; Mineralization Sequestration; Coal spontaneous combustion
Submission Author
Shilin Wang
China University of Mining and Technology
Qingxiang Wang
China University of Mining and Technology
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