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Simultaneously Recovery of Thorium and Tungsten through Hybrid Electrolysis-Nanofiltration Processes.
Man, Geani Teodor; Albu, Paul Constantin; Nechifor, Aurelia Cristina; Grosu, Alexandra Raluca; Popescu Stegarus, Diana Ionela; Grosu, Vlad-Alexandru; Marinescu, Virgil Emanuel; Nechifor, Gheorghe.
Afiliación
  • Man GT; Analytical Chemistry and Environmental Engineering Department, University Politehnica of Bucharest, 011061 Bucharest, Romania.
  • Albu PC; National Research and Development Institute for Cryogenics and Isotopic Technologies-ICSI, 240050 Râmnicu Valcea, Romania.
  • Nechifor AC; Radioisotopes and Radiation Metrology Department (DRMR), IFIN Horia Hulubei, 023465 Magurele, Romania.
  • Grosu AR; Analytical Chemistry and Environmental Engineering Department, University Politehnica of Bucharest, 011061 Bucharest, Romania.
  • Popescu Stegarus DI; Analytical Chemistry and Environmental Engineering Department, University Politehnica of Bucharest, 011061 Bucharest, Romania.
  • Grosu VA; National Research and Development Institute for Cryogenics and Isotopic Technologies-ICSI, 240050 Râmnicu Valcea, Romania.
  • Marinescu VE; Department of Electronic Technology and Reliability, Faculty of Electronics, Telecommunications and Information Technology, University Politehnica of Bucharest, 061071 Bucharest, Romania.
  • Nechifor G; Department of Physical-Chemical Tests, National Institute for Research and Development in Electrical Engineering ICPE-CA Bucharest, 030138 Bucharest, Romania.
Toxics ; 12(2)2024 Jan 26.
Article en En | MEDLINE | ID: mdl-38393198
ABSTRACT
The recovery and recycling of metals that generate toxic ions in the environment is of particular importance, especially when these are tungsten and, in particular, thorium. The radioactive element thorium has unexpectedly accessible domestic applications (filaments of light bulbs and electronic tubes, welding electrodes, and working alloys containing aluminum and magnesium), which lead to its appearance in electrical and electronic waste from municipal waste management platforms. The current paper proposes the simultaneous recovery of waste containing tungsten and thorium from welding electrodes. Simultaneous recovery is achieved by applying a hybrid membrane electrolysis technology coupled with nanofiltration. An electrolysis cell with sulphonated polyether-ether-ketone membranes (sPEEK) and a nanofiltration module with chitosan-polypropylene membranes (C-PHF-M) are used to carry out the hybrid process. The analysis of welding electrodes led to a composition of W (tungsten) 89.4%; Th 7.1%; O2 2.5%; and Al 1.1%. Thus, the parameters of the electrolysis process were chosen according to the speciation of the three metals suggested by the superimposed Pourbaix diagrams. At a constant potential of 20.0 V and an electrolysis current of 1.0 A, the pH is varied and the possible composition of the solution in the anodic workspace is analyzed. Favorable conditions for both electrolysis and nanofiltration were obtained at pH from 6 to 9, when the soluble tungstate ion, the aluminum hydroxide, and solid thorium dioxide were formed. Through the first nanofiltration, the tungstate ion is obtained in the permeate, and thorium dioxide and aluminum hydroxide in the concentrate. By adding a pH 13 solution over the two precipitates, the aluminum is solubilized as sodium aluminate, which will be found after the second nanofiltration in the permeate, with the thorium dioxide remaining integrally (within an error of ±0.1 ppm) on the C-PHF-M membrane.
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Texto completo: 1 Colección: 01-internacional Base de datos: MEDLINE Idioma: En Revista: Toxics Año: 2024 Tipo del documento: Article País de afiliación: Rumanía Pais de publicación: Suiza

Texto completo: 1 Colección: 01-internacional Base de datos: MEDLINE Idioma: En Revista: Toxics Año: 2024 Tipo del documento: Article País de afiliación: Rumanía Pais de publicación: Suiza