超重力法制备FeS及其Al2O3负载改性后脱汞性能研究

Preparation of FeS by supergravity method and study on mercury-removal properties of Al2O3 loading modified FeS

吕俊辉 ¹栗秀萍 ¹于洋 ¹王正恬¹

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作者信息

1. 中北大学化学与化工学院,山西太原 030051;中北大学,化工过程强化山西省重点实验室,山西太原 030051;中北大学,煤与煤层气共采全国重点实验室,山西太原 030051
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摘要

采用撞击流-旋转填料床(IS-RPB)结合共沉淀法获取粒径小且分布均匀的FeS粉体,利用浸渍法对其进行负载型改性得到复合材料FeS/Al2O3,并利用其进行脱汞性能探究.利用扫描电镜、X射线衍射仪和能谱仪对复合材料的组成和形貌结构进行表征;利用粒度分析仪测试FeS粉体的粒径分布;利用原子吸收分光光度计测试脱汞率,考察吸附剂用量、处理时间、pH、共存离子等对脱汞效果的影响.结果表明,超重力法制备纳米FeS的最佳条件为:c(Fe2+)=0.10 mol/L、超重力因子为106.6、撞击初速度为 9.43 m/s,此时,得到的FeS的粒径小(D50=91 nm)且分布很窄(68～114 nm).FeS/Al2O3 复合材料的脱汞最佳条件为:pH为 6、吸附材料质量浓度为 2.0 g/L、处理时间为 240 min,此时,脱汞率可达 99.96%,最大饱和吸附容量为1775.9 mg/g,出水质量浓度为 0.04 mg/L.

Abstract

FeS powder with small and uniformly distributed particle size is obtained through using the impinging stream-rotating packed bed(IS-RPB)combined with the coprecipitation method,and is supported and modified through impregnation to prepare FeS/Al2O3 composite material that is then used to evaluate mercury removal performance.The composition and morphology of the composite material are characterized by means of scanning electron microscopy,X-ray diffraction,and energy dispersive spectroscopy.The particle size distribution of FeS powder is tested through using a particle size analyzer,and the mercury removal rate is detected by using an atomic absorption spectrophotometer,examining the effects of adsorbent dosage,treatment time,pH,and coexisting ions on mercury removal efficiency.Results indicate that the optimal conditions for preparing nano-FeS via supergravity method are as follows:c(Fe2+)=0.10 mol·L-1,supergravity factor is 106.6,and initial impinging velocity is 9.43 m·s-1.Under these conditions,the obtained FeS has a small particle size(D50=91nm)and a narrow particle size distribution(68-114 nm).The optimal conditions for mercury removal by FeS/Al2O3 composite material are as follows:pH=6,the mass concentration of adsorbent is 2.0 g·L-1,and treatment time is 240 minutes.Under these conditions,the mercury removal rate can reach 99.96%,with a maximum saturated adsorption capacity of 1775.9 mg·g-1 and an effluent concentration of 0.04 mg·L-1.

关键词

超重力技术/FeS/Al2O3/Hg(Ⅱ)/废水

Key words

supergravity technology/FeS/Al2O3/Hg(Ⅱ)/wastewater

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基金项目

山西省自然科学基金(201901D111136)

出版年

2024

现代化工

中国化工信息中心

现代化工

CSTPCD北大核心

影响因子：0.553

ISSN：0253-4320

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