2023
DOI: 10.3390/met13081481
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Recent Advances in the Utilization of Tungsten Residue: A Mini Review of China

Pan Deng,
Lili Cheng,
Alin Li
et al.

Abstract: As a metal of strategic value, tungsten plays an important part in civil and military applications. Currently, China is the biggest tungsten producer all over the world, and the metallic smelting technologies for tungsten are well established. However, the harmless recovery and treatment procedures for tungsten residue remain rather underdeveloped. The treatment of tungsten residue generally includes the recovery of valuable metals (e.g., scandium, tantalum, and niobium) and the solidification of toxic element… Show more

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Cited by 5 publications
(3 citation statements)
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“…Utilization of tungsten residue [1] Tungsten resources and potential extraction [3] Recovery of W(VI) from wolframite ore using new synthetic Schiff-based derivative [17] Extraction of sodium tungstate from tungsten ore [18] Progress in sustainable recycling and circular economy of tungsten carbide [19] Tungsten resources and potential extraction from mine waste [20] Thorium Recovery and transport of thorium (IV) through polymer inclusion membrane [9] Process for the separation of U(VI), Th(IV) from rare earth elements by using ionic liquid Cyphos IL 104. [11] Thorium removal, recovery, and recycling [12] Polymeric materials for rare earth element recovery [13] Highly efficient adsorbent to remove thorium ions [15] Impacts of uranium-and thorium-based fuel cycles with different recycle options [16] The interest in thorium is argued both because it is a material with huge potential for energy generation, including nuclear energy [31][32][33][34][35][36][37][38][39][40], but also because, although it is radioactive, it is the object of some domestic applications that capitalize on the resistance to high temperatures of thorium dioxide (lamps, shields, crucibles, and welding electrodes) [41] or its special refractive index (lenses, glasses, and high-resolution optoelectronic apparatus) [12].…”
Section: Tungstenmentioning
confidence: 99%
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“…Utilization of tungsten residue [1] Tungsten resources and potential extraction [3] Recovery of W(VI) from wolframite ore using new synthetic Schiff-based derivative [17] Extraction of sodium tungstate from tungsten ore [18] Progress in sustainable recycling and circular economy of tungsten carbide [19] Tungsten resources and potential extraction from mine waste [20] Thorium Recovery and transport of thorium (IV) through polymer inclusion membrane [9] Process for the separation of U(VI), Th(IV) from rare earth elements by using ionic liquid Cyphos IL 104. [11] Thorium removal, recovery, and recycling [12] Polymeric materials for rare earth element recovery [13] Highly efficient adsorbent to remove thorium ions [15] Impacts of uranium-and thorium-based fuel cycles with different recycle options [16] The interest in thorium is argued both because it is a material with huge potential for energy generation, including nuclear energy [31][32][33][34][35][36][37][38][39][40], but also because, although it is radioactive, it is the object of some domestic applications that capitalize on the resistance to high temperatures of thorium dioxide (lamps, shields, crucibles, and welding electrodes) [41] or its special refractive index (lenses, glasses, and high-resolution optoelectronic apparatus) [12].…”
Section: Tungstenmentioning
confidence: 99%
“…The performances proven by membrane separation processes in various ecological and greening technologies constitute important arguments for their involvement in the recovery and recycling of various urban wastes, especially those that generate toxic products [ 1 , 2 , 3 , 4 ]. Thus, in order to develop a technology for the separation and valorization of some metallic elements from specific urban waste, baromembrane processes can be applied, when the elements are in a colloidal (nanometric) or suspension (micrometric) state, or processes with electric and/or concentration gradient, if the metals are found in the forms of ions [ 5 , 6 , 7 , 8 ].…”
Section: Introductionmentioning
confidence: 99%
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