The InnoRec Process: A Comparative Study of Three Mainstream Routes for Spent Lithium-ions Battery Recycling Based on the Same Feedstock

Qui, Hao; Goldmann, Daniel; Stallmeister, Christin; Friedrich, Bernd; Tobaden, Maximilian; Kwade, Arno; Peschel, Christoph; Winter, Martin; Nowak, Sascha; Lyon, Tony; Peuker, Urs

Research article (journal) | Peer reviewed

Abstract

Among the technologies used for spent lithium-ion battery recycling, the common approaches include mechanical treatment, pyrometallurgical processing and hydrometallurgical processing. These technologies do not stand alone in a complete recycling process but are combined. The constant changes in battery materials and battery design make it a challenge for the existing recycling processes, and the need to design efficient and robust recycling processes for current and future battery materials has become a critical issue today. Therefore, this paper simplifies the current treatment technologies into three recycling routes, namely, the hot pyrometallurgical route, warm mechanical route and cold mechanical route. By using the same feedstock, the three routes are compared based on the recovery rate of the six elements (Al, Cu, C, Li, Co and Ni). The three different recycling routes represent specific application scenarios, each with their own advantages and disadvantages. In the hot pyrometallurgical route, the recovery of Co is over 98%, and the recovery of Ni is over 99%. In the warm mechanical route, the recovery of Li can reach 63%, and the recovery of graphite is 75%. In the cold mechanical route, the recovery of Cu can reach 75%, and the recovery of Al is 87%. As the chemical compositions of battery materials and various doping elements continue to change today, these three recycling routes could be combined in some way to improve the overall recycling efficiency of batteries.

Details about the publication

JournalSustainability
Volume16
Issue9
Article number3876
StatusPublished
Release year2024
Language in which the publication is writtenEnglish
DOI10.3390/su16093876
Keywordsbattery recycling; lithium; graphite; electrolyte; mechanical processing; pyrometallurgy; thermal treatment; pyrolysis; flotation; hydrometallurgy

Authors from the University of Münster

Nowak, Sascha
Münster Electrochemical Energy Technology Battery Research Center (MEET)
Peschel, Christoph
Münster Electrochemical Energy Technology Battery Research Center (MEET)
Winter, Martin
Münster Electrochemical Energy Technology Battery Research Center (MEET)