Recovery of an yttrium europium oxide phosphor from waste fluorescent tubes using a Brønsted acidic ionic liquid, 1-methylimidazolium hydrogen sulfate
Author(s)
Schaeffer, N
Feng, X
Grimes, SM
Cheeseman, C
Type
Journal Article
Abstract
BACKGROUND
Spent fluorescent lamps, classified as hazardous waste in the EU, are segregated at source. Processes for the recovery of critical rare-earth (RE) elements from the phosphor powder waste, however, often involve use of aggressive acid or alkali digestion, multi-stage separation procedures, and production of large aqueous waste streams which require further treatment.
RESULTS
To overcome these difficulties phosphor powder pre-treated with dilute HCl was leached with a 1:1 wt. [Hmim][HSO4]:H2O solution at a solid:liquid ratio of 5%, at 80 °C for 4 h with stirring at 300 rpm to recover 91.6 wt% of the Y and 97.7 wt% of the Eu present. The yttrium-europium oxide (YOX), (Y0.95Eu0.05)2O3, recovered by precipitating the dissolved RE elements from the leach solution with oxalic acid and converting the oxalate to an oxide phase by heating, was characterised by FTIR, XRD and luminescence analysis. The analyses suggest the recovered oxide has the potential to be directly reused as YOX phosphor. Regeneration and reuse of the ionic liquid is achieved with only minor leaching efficiency losses found over four leaching/recovery cycles.
CONCLUSION
The recovery of yttrium europium oxide from waste fluorescent tube phosphor by a simple efficient low cost ionic liquid process has been developed.
Spent fluorescent lamps, classified as hazardous waste in the EU, are segregated at source. Processes for the recovery of critical rare-earth (RE) elements from the phosphor powder waste, however, often involve use of aggressive acid or alkali digestion, multi-stage separation procedures, and production of large aqueous waste streams which require further treatment.
RESULTS
To overcome these difficulties phosphor powder pre-treated with dilute HCl was leached with a 1:1 wt. [Hmim][HSO4]:H2O solution at a solid:liquid ratio of 5%, at 80 °C for 4 h with stirring at 300 rpm to recover 91.6 wt% of the Y and 97.7 wt% of the Eu present. The yttrium-europium oxide (YOX), (Y0.95Eu0.05)2O3, recovered by precipitating the dissolved RE elements from the leach solution with oxalic acid and converting the oxalate to an oxide phase by heating, was characterised by FTIR, XRD and luminescence analysis. The analyses suggest the recovered oxide has the potential to be directly reused as YOX phosphor. Regeneration and reuse of the ionic liquid is achieved with only minor leaching efficiency losses found over four leaching/recovery cycles.
CONCLUSION
The recovery of yttrium europium oxide from waste fluorescent tube phosphor by a simple efficient low cost ionic liquid process has been developed.
Date Issued
2017-05-22
Date Acceptance
2017-04-06
Citation
Journal of chemical technology and biotechnology, 2017, 92 (10), pp.2731-2738
ISSN
0142-0356
Publisher
Wiley
Start Page
2731
End Page
2738
Journal / Book Title
Journal of chemical technology and biotechnology
Volume
92
Issue
10
Copyright Statement
© 2017 Society of Chemical Industry. This is the accepted version of the following article, which has been published in final form at http://onlinelibrary.wiley.com/doi/10.1002/jctb.5297/abstract
Subjects
Science & Technology
Life Sciences & Biomedicine
Physical Sciences
Technology
Biotechnology & Applied Microbiology
Chemistry, Multidisciplinary
Engineering, Environmental
Engineering, Chemical
Chemistry
Engineering
rare earth elements
strategic material recovery
hydrometallurgy
fluorescent lighting phosphors
spent fluorescent lamps
RARE-EARTH-ELEMENTS
EXTRACTION
METALS
LAMPS
LUMINESCENCE
SOLVENTS
MERCURY
POWDERS
MD Multidisciplinary
Biotechnology
Publication Status
Published