TY - GEN
T1 - Sustainable hydrometallurgical recovery of valuable elements from spent nickel-metal hydride hev batteries
AU - Korkmaz, Kivanc
AU - Forsberg, Kerstin M.
AU - Alemrajabi, Mahmood
AU - Rasmuson, Åke C.
N1 - Publisher Copyright:
© 2017 TAPPI Press. All rights reserved.
PY - 2016
Y1 - 2016
N2 - In the present study the recovery of a Panasonic Prismatic Module 6.5 Ah NiMH 7.2 V plastic casing hybrid electric vehicle (HEV) battery was investigated, separately processing the anode and cathode electrodes. The composition of the electrode materials was determined by total dissolution and analysis using ICP-OES. Nickel is the dominant metal in the active materials (65% by mass in the anode and 70% by mass in the cathode). Most of the rare earth elements (La, Ce, Nd, Pr and Y) are located in the anode active material, whereas only a small amount of Y is found in the cathode material. The electrode materials were further characterized by SEM-EDS and powder XRD. The electrodes were leached in sulfuric acid and in hydrochloric acid under different conditions. The dissolution was followed by taking out samples and analyzing the concentration of REE, Co, and Ni using ICP-OES. The results indicate that the dissolution of nickel could be limited by slow dissolution kinetics of nickel oxide. Further, it was found that light rare earths are lost through precipitation during sulfuric acid leaching with increasing extent as the temperature and sulfuric acid concentration increases. The separation of REE from the sulfuric acid leach liquor by precipitation as NaREE(SO4)2.H2O and from the hydrochloric acid leach solution as REE2(C2O4)3.xH2O have been studied by performing experiments using battery leach liquors.
AB - In the present study the recovery of a Panasonic Prismatic Module 6.5 Ah NiMH 7.2 V plastic casing hybrid electric vehicle (HEV) battery was investigated, separately processing the anode and cathode electrodes. The composition of the electrode materials was determined by total dissolution and analysis using ICP-OES. Nickel is the dominant metal in the active materials (65% by mass in the anode and 70% by mass in the cathode). Most of the rare earth elements (La, Ce, Nd, Pr and Y) are located in the anode active material, whereas only a small amount of Y is found in the cathode material. The electrode materials were further characterized by SEM-EDS and powder XRD. The electrodes were leached in sulfuric acid and in hydrochloric acid under different conditions. The dissolution was followed by taking out samples and analyzing the concentration of REE, Co, and Ni using ICP-OES. The results indicate that the dissolution of nickel could be limited by slow dissolution kinetics of nickel oxide. Further, it was found that light rare earths are lost through precipitation during sulfuric acid leaching with increasing extent as the temperature and sulfuric acid concentration increases. The separation of REE from the sulfuric acid leach liquor by precipitation as NaREE(SO4)2.H2O and from the hydrochloric acid leach solution as REE2(C2O4)3.xH2O have been studied by performing experiments using battery leach liquors.
KW - Hydrometallurgy
KW - Ni-MH battery recycling
KW - Nickel
KW - Precipitation
KW - Rare earth recovery
UR - http://www.scopus.com/inward/record.url?scp=85048361582&partnerID=8YFLogxK
M3 - Conference contribution
AN - SCOPUS:85048361582
T3 - IMPC 2016 - 28th International Mineral Processing Congress
BT - IMPC 2016 - 28th International Mineral Processing Congress
PB - Canadian Institute of Mining, Metallurgy and Petroleum
T2 - 28th International Mineral Processing Congress, IMPC 2016
Y2 - 11 September 2016 through 15 September 2016
ER -