Litcius/Paper detail

Sequential flue gas utilization for sustainable leaching and metal precipitation of spent lithium-ion battery cathode material: Process design and techno-economic analysis

Jeongdong Kim, Jeongdong Kim, Sangyoung Kim, Jonghun Lim, Il Moon, Junghwan Kim, Junghwan Kim

2022Journal of Cleaner Production22 citationsDOIOpen Access PDF

Abstract

The growing use of lithium nickel manganese cobalt oxide (NCM) batteries has necessitated increased recovery of cathode materials for sustainable battery recycling given the limited metal source, and to mitigate the negative environmental impact of battery disposal. Acid leaching and the use of precipitants are essential for selective metal extraction in the recycling process. However, the excessive use of chemicals degrades the economic performance of the recycling process. In this study, we propose and simulate a novel lithium-ion battery (LIB) recycling system through sequential SOX, NOX, and CO2 utilization of industrial flue gas in the following four processes: sulfuric acid and nitric acid regeneration from SOX, NOX, acid leaching of cathode materials, Na2CO3 regeneration from sulfur and nitric-free flue gas, selective precipitation. In the sequential flue gas capture and utilization, the H2O2 is used as a wet absorbent for both desulfurization and denitrification, and produces 3.3 M H2SO4 and 7.18 M HNO3. NaOH is used for CO2 utilization, and 2.32 M of Na2CO3 is produced. We expected that the sequential flue gas utilization reduced the acids and precipitant consumption in the battery recycling process, which was more advantageous than the conventional recycling process by 2.70%.

Topics & Concepts

Flue gasLeaching (pedology)Flue-gas desulfurizationWaste managementSulfuric acidNOxNitric acidChemistryEnvironmental scienceInorganic chemistryCombustionEngineeringOrganic chemistrySoil waterSoil scienceExtraction and Separation ProcessesRecycling and Waste Management TechniquesAdvancements in Battery Materials