Green Recycling of Goethite and Gypsum Residues in Hydrometallurgy with alpha-Fe3O4 and gamma-Fe2O3 Nanoparticles: Application, Characterization, and DFT Calculation

Yue, Tong1,2; Niu, Zhen2; Tao, Hongbiao2; He, Xiao2; Sun, Wei1; Hu, Yuehua1; Xu, Zhenghe2,3

2019-04

10.1021/acssuschemeng.8b06142

ACS Sustainable Chemistry & Engineering   影响因子和分区

2168-0485

Millions of tons of hazardous iron oxide residues are produced during the iron purification process of sulfuric acid leaching solutions in the nonferrous metals hydrometallurgy industry per year. The generated iron oxide residues, which mainly contain goethite and gypsum precipitates, pose great threats to the local ecological environment and human health. We proposed a novel method, separation and recovery of goethite and gypsum by the synthetic magnetic nanoparticles (MNPs) such as alpha-Fe3O4 and gamma-Fe2O3, to treat the residues efficiently and cost-effectively. MNPs served as the magnetic crystal nuclei of the goethite precipitates during the iron purification process, and the goethite and gypsum precipitates formed under this condition can be separated in a magnetic field for recycling purposes. The separation efficiency of the goethite and gypsum precipitates was much higher when gamma-Fe2O3 was used as the crystal nuclei, indicating that the surface of gamma-Fe2O3 was more favorable for the formation of goethite particles than alpha-Fe3O4, which has also been verified by SEM, FBRM, XRD, TEM, and XPS analysis. DFT calculations suggested that the binding energy between the MNPs and iron hydroxide plays a critical role and is responsible for the distinguished collecting efficiencies of alpha-Fe3O4 and gamma-Fe2O3 toward goethite.

Hazardous residues Waste treatment Magnetic nanoparticles DFT calculation Green recycle

SCI ; EI

英语

通讯

Collaborative Innovation Center for Clean and Efficient Utilization of Strategic Metal Mineral Resources, Key Laboratory of Hunan Province for Clean and Efficient Utilization of Strategic Calcium-containing Mineral Resources[2018TP1002]

Chemistry ; Science & Technology - Other Topics ; Engineering

Chemistry, Multidisciplinary ; Green & Sustainable Science & Technology ; Engineering, Chemical

WOS:000463462100041

AMER CHEMICAL SOC

20191306701644

Binding energy ; Collector efficiency ; Density functional theory ; Gypsum ; Hazards ; Health risks ; Hematite ; Hydrometallurgy ; Magnetite ; Nanoparticles ; Purification ; Recycling ; Separation ; Waste treatment

Industrial Wastes:452.3 ; Industrial Wastes Treatment and Disposal:452.4 ; Health Care:461.7 ; Minerals:482.2 ; Metallurgy:531.1 ; Magnetism: Basic Concepts and Phenomena:701.2 ; Solar Cells:702.3 ; Nanotechnology:761 ; Physical Chemistry:801.4 ; Chemical Operations:802.3 ; Accidents and Accident Prevention:914.1 ; Probability Theory:922.1 ; Solid State Physics:933

Web of Science

1.Cent S Univ, Sch Minerals Proc & Bioengn, Changsha 410083, Hunan, Peoples R China
2.Univ Alberta, Dept Chem & Mat Engn, Edmonton, AB T6G 1H9, Canada
3.Southern Univ Sci & Technol, Dept Mat Sci & Engn, Shenzhen 518055, Guangdong, Peoples R China

Yue, Tong,Niu, Zhen,Tao, Hongbiao,et al. Green Recycling of Goethite and Gypsum Residues in Hydrometallurgy with alpha-Fe3O4 and gamma-Fe2O3 Nanoparticles: Application, Characterization, and DFT Calculation[J]. ACS Sustainable Chemistry & Engineering,2019,7(7):6821-6829.

Yue, Tong.,Niu, Zhen.,Tao, Hongbiao.,He, Xiao.,Sun, Wei.,...&Xu, Zhenghe.(2019).Green Recycling of Goethite and Gypsum Residues in Hydrometallurgy with alpha-Fe3O4 and gamma-Fe2O3 Nanoparticles: Application, Characterization, and DFT Calculation.ACS Sustainable Chemistry & Engineering,7(7),6821-6829.

Yue, Tong,et al."Green Recycling of Goethite and Gypsum Residues in Hydrometallurgy with alpha-Fe3O4 and gamma-Fe2O3 Nanoparticles: Application, Characterization, and DFT Calculation".ACS Sustainable Chemistry & Engineering 7.7(2019):6821-6829.