Recovery of Molybdenum, Chromium, Tungsten, Copper, Silver, and Zinc from Industrial Waste Waters Using Zero-Valent Iron and Tailored Beneficiation Processes

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Recovery of Molybdenum, Chromium, Tungsten, Copper, Silver, and Zinc from Industrial Waste Waters Using Zero-Valent Iron and Tailored Beneficiation Processes. / Vollprecht, Daniel; Plessl, Katharina; Neuhold, Simone Franziska et al.
In: Processes : open access journal, Vol. 8.2020, No. 3, 279, 28.02.2020.

Research output: Contribution to journalArticleResearchpeer-review

Harvard

Vollprecht, D, Plessl, K, Neuhold, SF, Kittinger, F, Öfner, W, Müller, P, Mischitz, R & Sedlazeck, KP 2020, 'Recovery of Molybdenum, Chromium, Tungsten, Copper, Silver, and Zinc from Industrial Waste Waters Using Zero-Valent Iron and Tailored Beneficiation Processes', Processes : open access journal, vol. 8.2020, no. 3, 279. https://doi.org/10.3390/pr8030279

APA

Vollprecht, D., Plessl, K., Neuhold, S. F., Kittinger, F., Öfner, W., Müller, P., Mischitz, R., & Sedlazeck, K. P. (2020). Recovery of Molybdenum, Chromium, Tungsten, Copper, Silver, and Zinc from Industrial Waste Waters Using Zero-Valent Iron and Tailored Beneficiation Processes. Processes : open access journal, 8.2020(3), Article 279. Advance online publication. https://doi.org/10.3390/pr8030279

Vancouver

Vollprecht D, Plessl K, Neuhold SF, Kittinger F, Öfner W, Müller P et al. Recovery of Molybdenum, Chromium, Tungsten, Copper, Silver, and Zinc from Industrial Waste Waters Using Zero-Valent Iron and Tailored Beneficiation Processes. Processes : open access journal. 2020 Feb 28;8.2020(3):279. Epub 2020 Feb 28. doi: 10.3390/pr8030279

Author

Vollprecht, Daniel ; Plessl, Katharina ; Neuhold, Simone Franziska et al. / Recovery of Molybdenum, Chromium, Tungsten, Copper, Silver, and Zinc from Industrial Waste Waters Using Zero-Valent Iron and Tailored Beneficiation Processes. In: Processes : open access journal. 2020 ; Vol. 8.2020, No. 3.

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@article{15869850f29c4dcc963ec6af7806b419,
title = "Recovery of Molybdenum, Chromium, Tungsten, Copper, Silver, and Zinc from Industrial Waste Waters Using Zero-Valent Iron and Tailored Beneficiation Processes",
abstract = "Zero-valent iron (ZVI) has been used for water treatment for more than 160 years. However, passivation of its surface often constituted a problem which could only be tackled recently by the innovative Ferrodecont process using a fluidized bed reactor. In this study, pilot scale experiments for the removal of Mo, Cr, W, Cu, Ag and Zn from two industrial waste water samples and lab-scale experiments for the beneficiation of the abrasion products are presented to integrate the Ferrodecont process into a complete recycling process chain. Firstly, 38.5 % of Cu was removed from sample A, yielding abrasion products containing 33.1 wt% Cu as metallic copper (Cu) and various Cu compounds. The treatment of sample B removed 99.8 % of Mo, yielding abrasion products containing 17.8 wt% of Mo as amorphous phases or adsorbed species. Thermal treatment (1300 °C) of the abrasion product A indicated a reduction of delafossite to metallic Cu according to differential scanning calorimetry (DSC), thermogravimetry (TG) and X-ray diffraction (XRD), which was successfully separated from the magnetic iron phases. Hydrometallurgical treatment (1.5 M NaOH, 3 d, liquid:solid ratio (L:S) = 15:1) of sample B yielded aqueous extracts with Mo concentrations of 5820 to 6300 mgL-1. In conclusion, this corresponds to an up to 53-fold enrichment of Mo during the entire process chain.",
author = "Daniel Vollprecht and Katharina Plessl and Neuhold, {Simone Franziska} and Friedrich Kittinger and Wolfgang {\"O}fner and Peter M{\"u}ller and Robert Mischitz and Sedlazeck, {Klaus Philipp}",
note = "Publisher Copyright: {\textcopyright} 2020 by the authors.",
year = "2020",
month = feb,
day = "28",
doi = "10.3390/pr8030279",
language = "English",
volume = "8.2020",
journal = "Processes : open access journal",
issn = "2227-9717",
publisher = "Multidisciplinary Digital Publishing Institute (MDPI)",
number = "3",

}

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TY - JOUR

T1 - Recovery of Molybdenum, Chromium, Tungsten, Copper, Silver, and Zinc from Industrial Waste Waters Using Zero-Valent Iron and Tailored Beneficiation Processes

AU - Vollprecht, Daniel

AU - Plessl, Katharina

AU - Neuhold, Simone Franziska

AU - Kittinger, Friedrich

AU - Öfner, Wolfgang

AU - Müller, Peter

AU - Mischitz, Robert

AU - Sedlazeck, Klaus Philipp

N1 - Publisher Copyright: © 2020 by the authors.

PY - 2020/2/28

Y1 - 2020/2/28

N2 - Zero-valent iron (ZVI) has been used for water treatment for more than 160 years. However, passivation of its surface often constituted a problem which could only be tackled recently by the innovative Ferrodecont process using a fluidized bed reactor. In this study, pilot scale experiments for the removal of Mo, Cr, W, Cu, Ag and Zn from two industrial waste water samples and lab-scale experiments for the beneficiation of the abrasion products are presented to integrate the Ferrodecont process into a complete recycling process chain. Firstly, 38.5 % of Cu was removed from sample A, yielding abrasion products containing 33.1 wt% Cu as metallic copper (Cu) and various Cu compounds. The treatment of sample B removed 99.8 % of Mo, yielding abrasion products containing 17.8 wt% of Mo as amorphous phases or adsorbed species. Thermal treatment (1300 °C) of the abrasion product A indicated a reduction of delafossite to metallic Cu according to differential scanning calorimetry (DSC), thermogravimetry (TG) and X-ray diffraction (XRD), which was successfully separated from the magnetic iron phases. Hydrometallurgical treatment (1.5 M NaOH, 3 d, liquid:solid ratio (L:S) = 15:1) of sample B yielded aqueous extracts with Mo concentrations of 5820 to 6300 mgL-1. In conclusion, this corresponds to an up to 53-fold enrichment of Mo during the entire process chain.

AB - Zero-valent iron (ZVI) has been used for water treatment for more than 160 years. However, passivation of its surface often constituted a problem which could only be tackled recently by the innovative Ferrodecont process using a fluidized bed reactor. In this study, pilot scale experiments for the removal of Mo, Cr, W, Cu, Ag and Zn from two industrial waste water samples and lab-scale experiments for the beneficiation of the abrasion products are presented to integrate the Ferrodecont process into a complete recycling process chain. Firstly, 38.5 % of Cu was removed from sample A, yielding abrasion products containing 33.1 wt% Cu as metallic copper (Cu) and various Cu compounds. The treatment of sample B removed 99.8 % of Mo, yielding abrasion products containing 17.8 wt% of Mo as amorphous phases or adsorbed species. Thermal treatment (1300 °C) of the abrasion product A indicated a reduction of delafossite to metallic Cu according to differential scanning calorimetry (DSC), thermogravimetry (TG) and X-ray diffraction (XRD), which was successfully separated from the magnetic iron phases. Hydrometallurgical treatment (1.5 M NaOH, 3 d, liquid:solid ratio (L:S) = 15:1) of sample B yielded aqueous extracts with Mo concentrations of 5820 to 6300 mgL-1. In conclusion, this corresponds to an up to 53-fold enrichment of Mo during the entire process chain.

UR - http://www.scopus.com/inward/record.url?scp=85081984942&partnerID=8YFLogxK

U2 - 10.3390/pr8030279

DO - 10.3390/pr8030279

M3 - Article

VL - 8.2020

JO - Processes : open access journal

JF - Processes : open access journal

SN - 2227-9717

IS - 3

M1 - 279

ER -

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