Improving Extraction Performance of D2EHPA for Impurities Removal from Spent Lithium-Ion Batteries Leaching Solution by TPC[4]
Yunhui Li, Li Zeng, Jiawei Du, Guiqing Zhang, Zuoying Cao, Shengxi Wu
Abstract
To reduce reagent consumption, wastewater discharge, and production cost of Mn2+ recovery and impurities (Zn2+/Cu2+/Ca2+) removal from an acid leaching solution of spent lithium-ion batteries, a mixed extractant (TPC[4]+D2EHPA) was synthesized, and the extraction performances for Mn2+ and impurities were systematically investigated. The synthesis experimental results demonstrated that TPC[4] can be synthesized in a simple and high yield way with cheap raw materials. Extraction tests indicated that the separation coefficients of Mn2+, Cu2+, and Zn2+ to Ni2+ and Co2+ by D2EHPA were significantly enlarged by the addition of TPC[4], which can mainly be attributed to the enhancement in the differences of binding abilities for cationic complexes with different sizes. Furthermore, the loading capacities of Mn2+ and impurities (Cu2+, Zn2+) were also enlarged, and the stripping of these cations could easily be achieved with dilute acid. Compared with traditional Mn2+ and an impurities extraction process with D2EHPA alone, the addition of TPC[4] saved about 10.36% of the saponification alkali (NaOH), 10.36% of the washing acid (H2SO4), ∼20% of the washing water, and more than 4.56% of the organic loss. From both economic and environmental perspectives, the mixed solvent of D2EHPA+TPC[4] is an excellent application prospect.