高硬高矿化度矿井水井下深度处理工艺研究

doi:10. 11799/ ce202510013

摘要/Abstract

摘要：

为解决高硬、高矿化度及铁锰超标的复杂矿井水井下就地深度处理回用工程的工艺选择问题，提出了一种工艺链短、处理效果好、出水水质稳定的“曝气氧化+絮凝沉淀+多介质过滤器+锰砂过滤器+反渗透”处理工艺，并通过中试试验验证该工艺的处理效果。实验结果表明，利用该处理工艺后系统稳定产水浊度小于0.5NTU，铁、锰含量小于0.1mg/L，余氯含量小于0.1mg/L，电导率小于60μs/cm，达到井下生产设备用水水质要求；利用该处理工艺，反渗透产水率稳定在50%左右。对井下布置的高硬高矿化度复杂矿井水就地处理回用项目工程设计的工艺选择具有指导意义。

关键词: 高硬高矿化度矿井水 , 井下水处理回用 , 除铁锰工艺 , 脱盐工艺

Abstract:

In order to solve the problem of process selection for underground on-site deep treatment and reuse of complex mine water with high hardness, high mineralization and iron and manganese exceeding the standard, this study proposed the treatment process consisting of “aeration oxidation + flocculation and sedimentation + multi-media filtration + manganese sand filtration + reverse osmosis”, which had a short process chain, good treatment effect, and stable effluent water quality. Through the pilot test to verify the treatment effect of the optimization and adjustment process, the system consistently produced water with turbidity below 0.5 NTU, iron and manganese below 0.1 mg/L, residual chlorine below 0.1 mg/L, and conductivity below 60 μS/cm, meeting the water quality requirements for underground production equipment. The reverse osmosis recovery rate stabilized at 50%. The study provided valuable guidance for the process selection in the design of on-site treatment and reuse systems for complex mine water with high hardness and high mineralization in underground arrangement.

中图分类号:

TD218

汪永彪, 张亢, 王辛铜, 谢楠.

高硬高矿化度矿井水井下深度处理工艺研究 [J]. 煤炭工程, 2025, 57(10): 108-114.

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