[1]王小强,胡瑞柱,魏继林,等.矿井水膜浓缩出水诱导结晶软化脱盐试验研究[J].中国给水排水,2025,41(1):101-106.
　WANGXiao-qiang,HURui-zhu,WEIJi-lin,et al.Induced Crystallization Softening and Desalination of Effluent from Mine Water Membrane Concentration[J].China Water & Wastewater,2025,41(1):101-106.

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矿井水膜浓缩出水诱导结晶软化脱盐试验研究

中国给水排水[ISSN:1000-4062/CN:12-1073/TU] 卷: 第41卷期数: 2025年第1期页码: 101-106 栏目: 出版日期: 2025-01-01

Title:: Induced Crystallization Softening and Desalination of Effluent from Mine Water Membrane Concentration

作者:: 王小强¹，胡瑞柱²，魏继林¹，李恺弘²，李世昶²，黄廷林²，程海涛¹，宁丁莹¹; （1.中煤西安设计工程有限责任公司，陕西西安 710000；2.西安建筑科技大学环境与市政工程学院，陕西西安 710055）

Author(s):: WANG　Xiao-qiang¹， HU　Rui-zhu²， WEI　Ji-lin¹， LI　Kai-hong²， LI　Shi-chang²， HUANG　Ting-lin²， CHENG　Hai-tao¹， NING　Ding-ying¹; （1. China Coal Xi’an Design Engineering Co. Ltd.， Xi’an 710000， China； 2. School of Environmental and Municipal Engineering， Xi’an University of Architecture and Technology， Xi’an 710055， China）

关键词:: 膜浓缩出水; 高矿化度矿井水; 诱导结晶; 软化; 硫酸盐脱除

Keywords:: membrane concentrate; high salinity mine water; induced crystallization; softening; sulfate removal

摘要:: 矿井水经过多级膜系统处理后所产生的大量膜浓缩废水具有含盐量高、离子种类多和含有阻垢剂等特点。采用硫酸钙诱导结晶法对其开展静态试验研究，通过预先向水样中加入的诱导晶种使水中的Ca²⁺和SO₄^2-生成CaSO₄结晶物并附着在晶种表面，从而达到软化脱盐的效果。结果表明，该方法可以获得较好的处理效果，硫酸钙不饱和原水中Ca²⁺去除率可以达到49.37%；硫酸钙过饱和原水中Ca²⁺去除率可以达到40.46%，SO₄^2-去除率可以达到26.53%。水中CaSO₄过饱和状况、诱导晶种类型及投加量、溶液pH、搅拌强度和搅拌时间等条件是影响结晶效果的主要因素。晶种表面SEM分析结果表明，试验中产生了结晶物并有效附着在其表面；EDS分析表明，该结晶物主要为Ca²⁺和SO₄^2-化合物。

Abstract:: After undergoing multistage membrane system treatment, a considerable amount of membrane concentrate generated from mine water membrane concentration possesses the characteristics of high salinity, a variety of ions, and the presence of scale inhibitors. The method of calcium sulfate induced crystallization was employed to undertake a static test study. The induced crystal seeds were added to the water samples in advance, enabling Ca²⁺ and SO₄^2- to form CaSO₄ crystals and adhere to the surface of the crystal seeds, thereby achieving softening and desalination of the concentrate. This method could achieve better removal results. The removal efficiency of Ca²⁺ in calcium sulfate unsaturated raw water could reach 49.37%, while the removal efficiency of Ca²⁺ in calcium sulfate supersaturated raw water could amount to 40.46%, and the removal efficiency of SO₄^2- could stand at 26.53%. The supersaturation of CaSO₄in water, the type and dosage of induced crystal species, the pH of the solution, the stirring intensity, and the stirring time were the main factors influencing the crystallization performance. The SEM analysis results of the crystal seed surface indicated that crystals were produced during the experiment and effectively adhered to its surface, and the EDS analysis demonstrated that the crystals were mainly composed of Ca²⁺ and SO₄^2- compounds.

更新日期/Last Update: 2025-01-01