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雪硅钙石诱导结晶法同步去除与回收污水中磷的研究

卿卓霖 邹天森 钱锋 卢彩彩 宋志伟 宋永会

卿卓霖,邹天森,钱锋,等.雪硅钙石诱导结晶法同步去除与回收污水中磷的研究[J].环境工程技术学报,2022,12(2):513-519 doi: 10.12153/j.issn.1674-991X.20210824
引用本文: 卿卓霖,邹天森,钱锋,等.雪硅钙石诱导结晶法同步去除与回收污水中磷的研究[J].环境工程技术学报,2022,12(2):513-519 doi: 10.12153/j.issn.1674-991X.20210824
QING Z L,ZOU T S,QIAN F,et al.Research on simultaneous removal and recovery of phosphorus from sewage by tobermorite induced crystallization[J].Journal of Environmental Engineering Technology,2022,12(2):513-519 doi: 10.12153/j.issn.1674-991X.20210824
Citation: QING Z L,ZOU T S,QIAN F,et al.Research on simultaneous removal and recovery of phosphorus from sewage by tobermorite induced crystallization[J].Journal of Environmental Engineering Technology,2022,12(2):513-519 doi: 10.12153/j.issn.1674-991X.20210824

雪硅钙石诱导结晶法同步去除与回收污水中磷的研究

doi: 10.12153/j.issn.1674-991X.20210824
基金项目: 长江干流及典型城市环境保护综合方案与管理平台研究项目(2019-LHYJ01-0104);国家水体污染控制与治理科技重大专项(2017ZX07401-004,2018ZX07601-003);国家自然科学基金项目(51078339)
详细信息
    作者简介:

    卿卓霖(1997—),男,硕士研究生,主要研究方向为水污染控制,Qingzlcom@163.com

    通讯作者:

    钱锋(1981—),男,副研究员,博士,主要研究方向为水污染控制,qianfeng@craes.org.cn

    宋志伟(1968—),女,教授,博士,主要研究方向为污水处理技术,szwcyp@163.com

  • 中图分类号: X703

Research on simultaneous removal and recovery of phosphorus from sewage by tobermorite induced crystallization

  • 摘要: 通过水热法合成雪硅钙石晶体,利用扫描电镜、X射线衍射仪和傅里叶变换红外光谱对晶体进行表征;以模拟厌氧消化液为处理对象,分析合成雪硅钙石作为晶种诱导磷酸钙结晶法去除污水中磷的效率,并对该晶种减轻反应过程中CO3 2−影响的作用进行研究。结果表明,合成的雪硅钙石纯度较高,且具有较强的pH和钙离子析出能力,在超纯水和自来水中分别投加2 g/L晶种后,溶液pH最终达到11.7和9.1,Ca2+浓度达到43和30 mg/L;体系中含有CO3 2−时,合成雪硅钙石诱导磷酸钙结晶反应符合晶体生长界面控制模型,且结晶反应仍符合二级方程(n=2);CO3 2−的存在会抑制磷酸钙结晶反应过程中的除磷效率;但投加合成雪硅钙石晶种后,CO3 2−的抑制作用减轻,磷酸钙结晶反应效率和速率大幅提高,在试验设定CO3 2−浓度最大条件下,磷的去除率由4.6%大幅升至76.7%,速率常数(k)由0.76 L/(mol·min)提高至67.74 L/(mol·min);合成雪硅钙石重复利用4次之后,对磷的去除效果仍然高于未投加合成雪硅钙石时磷的去除效果,表现出良好的可重复利用性。

     

  • 图  1  水热法合成的雪硅钙石晶体性能表征

    Figure  1.  Performance characterization of the synthetic tobermorite crystal synthesized by hydrothermal method

    图  2  合成雪硅钙石对不同水体pH和Ca2+浓度变化影响

    Figure  2.  Effects of synthetic tobermorite on pH and Ca2+ concentration in different water bodies

    图  3  合成雪硅钙石投加量对磷去除及体系pH的影响

    Figure  3.  Effect of different dosages of synthetic tobermorite on phosphorus removal and pH

    图  4  不同反应体系中磷的去除效果

    Figure  4.  Phosphorus removal efficiency in different reaction systems

    图  5  CO3 2−浓度为20 mmol/L时不同初始pH条件下投加晶种后反应过程中pH变化

    Figure  5.  pH changes during the reaction after adding crystal seeds under different initial pH at CO3 2− concentrations 20 mmol/L

    图  6  不同CO3 2−浓度对合成雪硅钙石除磷反应动力学的影响

    Figure  6.  Effects of different CO3 2− concentrations on phosphate removal reaction kinetics of synthetic tobermorite

    图  7  不同CO3 2−浓度下合成雪硅钙石重复使用对磷去除效果的影响

    Figure  7.  Effect of synthetic tobermorite recycle numbers on phosphate removal ratio at different CO3 2− concentrations

    表  1  磷剩余浓度和沉淀速率常数(k)

    Table  1.   Residual phosphorus concentrations and precipitation rate constant ( k)

    晶体投加
    量/(g/L)
    碳酸根浓度/
    (mmol/L)
    磷剩余浓度/
    (mmol/L)
    k/
    〔L/(mol·min)〕
    0200.520.76
    200.01386.29
    50.07140.53
    100.1267.74
    200.1554.33
    下载: 导出CSV
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  • 收稿日期:  2021-12-13
  • 网络出版日期:  2022-04-02

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