A study of the microflocculation-multistage filtration technology of mine water containing suspended solids
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摘要:
针对含悬浮物矿井水处理过程中固液分离困难的问题,基于核晶凝聚诱导造粒理论,通过室内试验的研究方法,开展矿井水微絮凝-多级过滤工艺研究。首先,通过药剂投加与水利条件调节,诱导悬浮颗粒与絮凝剂形成共聚物,形成絮体沉降时间曲线,通过最优参数选取完成絮体造粒致密化;其次,选择石英砂、人造沸石、活性炭、风积沙 4 种过滤介质,考察不同介质类型及粒径对污染组分脱除效率的影响,分析固-液界面产生的物理作用及化学反应;最终,选取典型矿井开展现场试验,验证该工艺对于不同污染组分的脱除效果。结果表明:(1)在微絮凝阶段采用200 mg/L的 聚合氯化铝及200 mg/L的硅藻土联合投加的方式可以大幅度降低沉降时间;(2)在多级过滤阶段1~2 mm石英砂对于浊度去除率可达97.9%,而 4 种过滤介质中人造沸石对于无机离子脱除效果最优,对于
${\rm{SO}}_4^{2 -} $ ${\rm{HCO}}_3^- $ Abstract:In order to solve the problem of difficult solid-liquid separation in the treatment of mine water containing suspended solids, based on the theory of nuclear crystal coagulation induced granulation, the process of “micro flocculation multi stage filtration” of mine water is studied through laboratory experiments. First of all, through the adjustment of reagent dosage and water conservancy conditions, the suspended particles and flocculants are induced to form a copolymer to form a floc settling time curve, and the floc granulation and densification are completed through the selection of optimal parameters. Secondly, four filter media of quartz sand, artificial zeolite, active carbon and aeolian sand are selected to investigate the effects of different media types and particle sizes on the removal efficiency of pollutants, and the physical and chemical reactions generated at the solid-liquid interface are analyzed. Finally, field tests are carried out in typical mines to verify the removal effect of the process on different pollution components. The results show that (1) the sedimentation time can be greatly reduced by adding polyaluminum chloride of 200 mg/L and diatomite of 200 mg/L in the micro flocculation stage. (2) The turbidity removal rate of 1−2 mm quartz sand in the multi-stage filtration stage can reach 97.9%, while the artificial zeolite in the four filter media is the best for the removal of inorganic ions. The removal rates of
${\rm{SO}}_4^{2 -} $ ${\rm{HCO}}_3^- $ -
Key words:
- mine water /
- micro flocculation /
- multistage filtering /
- nuclear crystal coagulation /
- filter medium
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表 1 试验运行参数
Table 1. Experimental operation of filter speed parameters
过滤柱 滤速/(m·h−1) 滤柱直径/m 截面积/m2 流量/(L·min−1) 1号过滤柱 4 0.1 0.03 2 2号过滤柱 2 0.1 0.03 1 3号过滤柱 1 0.1 0.03 0.5 
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表 3 某矿井原水水质指标
Table 3. Quality index of raw water of a mine
指标 浊度
/NTU质量浓度/(mg·L−1) TDS/(mg·L−1) Cl− ${\rm{SO}}_4^{2 -} $ Na+ ${\rm{HCO}}_3^- $ 结果 93.6 128 71 310 546 835
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表 4 相关系数矩阵
Table 4. Correlation coefficient matrix
离子种类 Cl− ${\rm{SO} }_4^{2 -} $ ${\rm{HCO}}_3^- $ Na+ TDS Cl− 1 0.942 0.667 0.833 0.972 ${\rm{SO} }_4^{2 -} $ 1 0.402 0.785 0.972 ${\rm{HCO} }_3^- $ 1 0.731 0.484 Na+ 1 0.719 TDS 1
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表 5 微絮凝-多级过滤实际处理效果
Table 5. Correlation coefficient matrix
浊度/NTU 质量浓度/(mg·L−1) TDS/(mg·L−1) Cl− ${\rm{SO} }_4^{2 -} $ ${\rm{HCO}}_3^- $ Na+ 进水 105 128 85 560 335 968 出水 2 144 68 366 121 816
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