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Journal Abstract Search

135 related items for PubMed ID: 36508909

  • 1. Recovery of iron from iron tailings by suspension magnetization roasting with biomass-derived pyrolytic gas.
    Qiu G, Ning X, Shen J, Wang Y, Zhang D, Deng J.
    Waste Manag; 2023 Feb 01; 156():255-263. PubMed ID: 36508909
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  • 2. Biomass waste as a clean reductant for iron recovery of iron tailings by magnetization roasting.
    Deng J, Ning XA, Shen J, Ou W, Chen J, Qiu G, Wang Y, He Y.
    J Environ Manage; 2022 Sep 01; 317():115435. PubMed ID: 35751253
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  • 3. The enrichment and transformation mechanism of Pb and Cu in suspension magnetization roasting and magnetic separation from iron tailings.
    Qiu G, Ning X, Zhang D, Deng J, Wang Y.
    Waste Manag; 2024 Jul 15; 184():82-91. PubMed ID: 38797126
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  • 7. Efficient iron recovery from iron tailings using advanced suspension reduction technology: A study of reaction kinetics, phase transformation, and structure evolution.
    Yuan S, Zhang Q, Yin H, Li Y.
    J Hazard Mater; 2021 Feb 15; 404(Pt B):124067. PubMed ID: 33086183
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  • 8. A semi-industrial experiment of suspension magnetization roasting technology for separation of iron minerals from red mud.
    Yuan S, Liu X, Gao P, Han Y.
    J Hazard Mater; 2020 Jul 15; 394():122579. PubMed ID: 32283382
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  • 9. Separation of Iron and Rare Earths from Low-Intensity Magnetic Separation (LIMS) Tailings through Magnetization Roasting-Magnetic Separation.
    Hou S, Wang W, Zhang B, Li W, Guo C, Li Q, Li E.
    ChemistryOpen; 2024 Feb 15; 13(2):e202300059. PubMed ID: 37902712
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  • 10. Reduction-Magnetic Separation of Pickling Sludge by Biomass Pyrolysis Reducing Gas.
    Xu Y, Shu Y, Wang Y, Ren X, Shu X, Zhang X, Song H, Zhou H, Dai L, Wang Z, Yuan X, Zhao H.
    ACS Omega; 2022 May 31; 7(21):17963-17975. PubMed ID: 35664575
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  • 11. Thermogravimetric and calorimetric characteristics during co-pyrolysis of municipal solid waste components.
    Ansah E, Wang L, Shahbazi A.
    Waste Manag; 2016 Oct 31; 56():196-206. PubMed ID: 27324928
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  • 12. Recovery of iron from vanadium tailings with coal-based direct reduction followed by magnetic separation.
    Yang H, Jing L, Zhang B.
    J Hazard Mater; 2011 Jan 30; 185(2-3):1405-11. PubMed ID: 21071144
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  • 13. Effects of biomass co-pyrolysis and herbaceous plant colonization on the transformation of tailings into soil like substrate.
    Zhu B, Si M, Xie X, Yan X, Huang J, Tian S, Ning P.
    J Environ Sci (China); 2025 Jan 30; 147():230-243. PubMed ID: 39003043
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  • 14. Highly active Fenton-like catalyst derived from solid waste-iron ore tailings using wheat straw pyrolysis.
    Gao L, Wang L, Li S, Cao Y.
    Environ Sci Pollut Res Int; 2022 May 30; 29(21):31567-31576. PubMed ID: 35001264
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  • 15. Magnetic Properties and Washability of Roasted Suspended Siderite Ores.
    Chen Y, Yang C, Jiu S, Zhao B, Song Q.
    Materials (Basel); 2022 May 17; 15(10):. PubMed ID: 35629607
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  • 17. Quality improvement of pyrolysis oil from waste rubber by adding sawdust.
    Wang WL, Chang JM, Cai LP, Shi SQ.
    Waste Manag; 2014 Dec 17; 34(12):2603-10. PubMed ID: 25223439
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  • 18. Synthesis of carbon nanotubes and porous carbons from printed circuit board waste pyrolysis oil.
    Quan C, Li A, Gao N.
    J Hazard Mater; 2010 Jul 15; 179(1-3):911-7. PubMed ID: 20400225
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