响应曲面法优化含氟矿井水处理及除氟机理研究

Optimization of fluorine mine water treatment and fluorine removal mechanism using response surface methodology

  • 摘要: 地表水或地下水流经富氟岩石易导致水中氟超标。水中氟超标易导致地方性氟中毒、生态环境的破坏,制约水资源综合利用。基于研制的一种高效除氟药剂,通过响应曲面分析中的Box-Behnken设计除氟试验,优化了pH值、除氟药剂投加量和快速搅拌时间对除氟效果的影响,并通过X射线光电子能谱(XPS)、X射线粉末衍射(XRD)、傅里叶红外光谱(FT-IR)等分析手段对除氟药剂及处理后产生的污泥进行表征分析,探讨了除氟药剂去除氟离子的机理。试验结果表明:最佳除氟条件为pH值6.11,药剂投加量4.15 mL,快速搅拌时间10.90 min,此时可使F-从初始的20 mg/L降至0.453 mg/L,与模型预测的0.445 mg/L基本吻合。除氟机理为,药剂在含氟矿井水中形成铁铝硅氧的多核多羟基络合物,通过氟离子与羟基发生交换、取代羟基,将氟离子固定在多核多羟基络合物中,形成铝硅氧四面体结构的氟化物,实现除氟效果。对比现用的羟基磷灰石吸附为主体的处理工艺,本研究制备的除氟药剂具有处理工艺简单、处理效果稳定、处理成本低等优点。

     

    Abstract: Surface water or groundwater flowing through fluorine-rich rocks can easily lead to excessive fluorine in water.Excessive fluoride in water can cause endemic fluorosis, damage of the ecological environment and restrict comprehensive utilization of water resources.In this study, based on a highly effective fluoride removal agent developed by the research group earlier, the box-Behnken method of response surface analysis was applied to design fluoride removal experiments where the influences of pH value, dosage of defluoridation reagent and fast stirring time on fluoride removal effect were optimized.This paper used X-Photoelectron spectroscopy (XPS), X-ray diffraction (XRD) and Fourier transform infrared spectrum (FT-IR) to characterize the defluoridation reagent and the sludge produced after treatment, and discussed the mechanism of fluoride ion removal.The experimental results showed that F-could be reduced from the initial 20 mg/L to 0.453 mg /L under the optimal conditions of fluoride removal (pH value 6.11, dosage 4.15 mL, fast stirring time 10.90 min), which was basically consistent with the predicted value 0.445 mg /L of the model.The defluoridation reagent was mainly through the formation of Fe, Al, Si and O polynuclear polyhydroxyl complex, fluorine-ion exchange with hydroxyl and replace hydroxyl, then fluorine-ion was fixed in the polynuclear polyhydroxyl complex.Meanwhile, fluoride forms a tetrahedral structure of aluminum, silicon and oxygen, and locks fluorine ions in the tetrahedral structure to achieve fluoride removal.Compared with the current main treatment process using hydroxyapatite adsorption, the defluoridation reagent in this study has the advantages of simple treatment process, stable treatment effect and low treatment cost.

     

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