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Silver(I) Recovery by Ion Flotation Process from Aqueous Solutions in Cells with Spargers
Extractive metallurgy has recently turned its attention to waste treatment for the recovery of precious metals through innovative metallurgical processes, such as ion flotation. This work studied the influence of several chemical and physical factors, such as the concentration of xanthate [x], froth...
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| Published in: | Minerals (Basel) 2023-04, Vol.13 (4), p.572 |
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| creator | Palazuelos, Laura P. Ángeles Guerrero, Mizraim U. Flores Labra, Miguel Pérez Domínguez, Iván A. Reyes García, Ramiro Escudero Cardona, Francisco Patiño Hernández, Francisco R. Barrientos Tapia, Julio C. Juárez Pérez, Martín Reyes |
| description | Extractive metallurgy has recently turned its attention to waste treatment for the recovery of precious metals through innovative metallurgical processes, such as ion flotation. This work studied the influence of several chemical and physical factors, such as the concentration of xanthate [x], frother agent [e], dithiophosphate [xl], pH, superficial gas velocity Jg, percentage of gas holdup Eg, bubble diameter (Db) calculated with the drift flux model, and the type of sparger, in the efficiency of silver(I) recovery by the ion flotation technique in sub-aerated cells. The results obtained indicate a 90.7% v/v recovery of silver(I) under conditions of 3.77 × 10−4 M [x], 1.25 × 10−4 M [e], Jg 0.5 cm/s, Jl 0.19 cm/s, Eg of 4.1% v/v, and Optimal Db of 0.11 cm, with a rigid bubble generator, achieving an apparent flotation kinetics of 4.16 1/min. The use of combinations [x]–[xl] achieve a silver(I) recovery of 86.9% with a Jg of 1.0 cm/s. The best recovery efficiencies achieved 93% w/w silver(I) are with pH 8.0, [e] of 1.25 × 10−4, Jl of 0.19 (cm/s) and a rigid sparger compared to a flexible one. |
| doi_str_mv | 10.3390/min13040572 |
| format | article |
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Ángeles ; Guerrero, Mizraim U. Flores ; Labra, Miguel Pérez ; Domínguez, Iván A. Reyes ; García, Ramiro Escudero ; Cardona, Francisco Patiño ; Hernández, Francisco R. Barrientos ; Tapia, Julio C. Juárez ; Pérez, Martín Reyes</creator><creatorcontrib>Palazuelos, Laura P. Ángeles ; Guerrero, Mizraim U. Flores ; Labra, Miguel Pérez ; Domínguez, Iván A. Reyes ; García, Ramiro Escudero ; Cardona, Francisco Patiño ; Hernández, Francisco R. Barrientos ; Tapia, Julio C. Juárez ; Pérez, Martín Reyes</creatorcontrib><description>Extractive metallurgy has recently turned its attention to waste treatment for the recovery of precious metals through innovative metallurgical processes, such as ion flotation. This work studied the influence of several chemical and physical factors, such as the concentration of xanthate [x], frother agent [e], dithiophosphate [xl], pH, superficial gas velocity Jg, percentage of gas holdup Eg, bubble diameter (Db) calculated with the drift flux model, and the type of sparger, in the efficiency of silver(I) recovery by the ion flotation technique in sub-aerated cells. The results obtained indicate a 90.7% v/v recovery of silver(I) under conditions of 3.77 × 10−4 M [x], 1.25 × 10−4 M [e], Jg 0.5 cm/s, Jl 0.19 cm/s, Eg of 4.1% v/v, and Optimal Db of 0.11 cm, with a rigid bubble generator, achieving an apparent flotation kinetics of 4.16 1/min. The use of combinations [x]–[xl] achieve a silver(I) recovery of 86.9% with a Jg of 1.0 cm/s. The best recovery efficiencies achieved 93% w/w silver(I) are with pH 8.0, [e] of 1.25 × 10−4, Jl of 0.19 (cm/s) and a rigid sparger compared to a flexible one.</description><identifier>ISSN: 2075-163X</identifier><identifier>EISSN: 2075-163X</identifier><identifier>DOI: 10.3390/min13040572</identifier><language>eng</language><publisher>Basel: MDPI AG</publisher><subject>Aeration ; Aqueous solutions ; Bubbles ; Cells ; Collectors ; Copper compounds ; Efficiency ; Extractive metallurgy ; Flotation ; Heavy metals ; Hydrocarbons ; Ions ; Kinetics ; Materials recovery ; Metallurgical analysis ; Metallurgy ; Metals ; Mineral industry ; Mining industry ; Physical factors ; Recovery ; Securities ; Silver ; Spargers ; Surfactants ; Waste treatment</subject><ispartof>Minerals (Basel), 2023-04, Vol.13 (4), p.572</ispartof><rights>COPYRIGHT 2023 MDPI AG</rights><rights>2023 by the authors. Licensee MDPI, Basel, Switzerland. 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Ángeles</au><au>Guerrero, Mizraim U. Flores</au><au>Labra, Miguel Pérez</au><au>Domínguez, Iván A. Reyes</au><au>García, Ramiro Escudero</au><au>Cardona, Francisco Patiño</au><au>Hernández, Francisco R. Barrientos</au><au>Tapia, Julio C. Juárez</au><au>Pérez, Martín Reyes</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Silver(I) Recovery by Ion Flotation Process from Aqueous Solutions in Cells with Spargers</atitle><jtitle>Minerals (Basel)</jtitle><date>2023-04-01</date><risdate>2023</risdate><volume>13</volume><issue>4</issue><spage>572</spage><pages>572-</pages><issn>2075-163X</issn><eissn>2075-163X</eissn><abstract>Extractive metallurgy has recently turned its attention to waste treatment for the recovery of precious metals through innovative metallurgical processes, such as ion flotation. 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| ispartof | Minerals (Basel), 2023-04, Vol.13 (4), p.572 |
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| subjects | Aeration Aqueous solutions Bubbles Cells Collectors Copper compounds Efficiency Extractive metallurgy Flotation Heavy metals Hydrocarbons Ions Kinetics Materials recovery Metallurgical analysis Metallurgy Metals Mineral industry Mining industry Physical factors Recovery Securities Silver Spargers Surfactants Waste treatment |
| title | Silver(I) Recovery by Ion Flotation Process from Aqueous Solutions in Cells with Spargers |
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