Low intensity magnetic separation of vivianite induced by iron reduction on the surface layer of Fe(III)[Fe(0)] iron scrap

IF 7.7 2区 环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES Environmental Research Pub Date : 2023-10-21 DOI:10.1016/j.envres.2023.117472
Yan Gao , Nanqi Ren , Shu Wang , Yu Wu , Xin Wang , Nan Li
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Abstract

Phosphorus (P) recovery through vivianite, which can be found in activated sludge, surplus sludge and digested sludge in the wastewater treatment plants (WWTPs), is a cutting-edge and efficient technology in recent years. However, how to generate and separate vivianite in an effective and economical way with natural iron oxide mineral was still the bottleneck to limit its application. Therefore, in this study, the P recovery efficiency (EP) and vivianite recovery efficiency (EV) of three kinds of iron oxides were investigated. We found that the EP of Akaganeite was 1.83 times and 4.88 times higher than that of Geothite and Hematite. Simultaneously, EV of Akaganeite was 1.64 times and 2.88 times higher than that of Geothite and Hematite. As Akaganeite is main component of rust on the surface of iron scrap, we used Fe(III)[Fe(0)] iron scrap with Fe(0) inside and Akaganeite outside as iron source and electron acceptor for vivianite production and magnetic separation. At the terminal stage (60 day), the P recovery efficiency with 20 g/L Fe(III)[Fe(0)] iron scrap was 36%. Applying a magnetical separator with magnetic field intensity of 0.3 T, vivianite was separated from the solution efficiently and immediately. Low intensity magnetic separation with iron scrap would recover P resources economically with the total cost to be $2.23/kg P, which was much lower than recovery via iron salts. Besides, it provided a significant insights into the P recovery and vivianite separation by reusing Fe waste during wastewater treatment.

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铁还原在Fe(III)[Fe(0)]废铁表层引起的蓝晶石的低强度磁选。
在污水处理厂(WWTP)的活性污泥、剩余污泥和消化污泥中都可以发现蓝晶石回收磷(P),这是近年来最前沿、最有效的技术。然而,如何用天然氧化铁矿物以有效、经济的方式生成和分离蓝晶石,仍然是制约其应用的瓶颈。因此,本研究对三种氧化铁的磷回收率(EP)和蓝晶石回收率(EV)进行了研究。我们发现赤铁矿的EP分别是土铁矿和赤铁矿的1.83倍和4.88倍。同时,赤铁矿的EV分别是硫铁矿和赤铁矿的1.64倍和2.88倍。由于赤铁矿是废铁表面铁锈的主要成分,我们使用内部为Fe(0)、外部为赤铁矿的Fe(III)[Fe(0)]废铁作为铁源和电子受体,用于蓝晶石的生产和磁选。在末期(60天),P回收效率为20 g/L Fe(III)[Fe(0)]废铁为36%。应用磁场强度为0.3的磁选机 T、 从溶液中有效且立即地分离出蓝晶石。用废铁进行低强度磁选可以经济地回收磷资源,总成本为2.23/kg磷,远低于铁盐回收。此外,它还为废水处理过程中利用铁废料回收磷和分离蓝晶石提供了重要的见解。
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来源期刊
Environmental Research
Environmental Research 环境科学-公共卫生、环境卫生与职业卫生
CiteScore
12.60
自引率
8.40%
发文量
2480
审稿时长
4.7 months
期刊介绍: The Environmental Research journal presents a broad range of interdisciplinary research, focused on addressing worldwide environmental concerns and featuring innovative findings. Our publication strives to explore relevant anthropogenic issues across various environmental sectors, showcasing practical applications in real-life settings.
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