Closing the loop: Life cycle assessment and optimization of a PEMFC platinum-based catalyst recycling process
Abstract
This study is focused on the development of environmentally friendly recycling method for selective recovery in a closed loop manner of Co and Pt from Pt3Co/C catalyst used as the PEMFC cathode. Pt and Co selective separation was carried out using two different hydrometallurgical alternatives based either on ion exchange resin or solvent extraction. The recycling process was optimized in order to maximize the platinum recovery yield, which reached 83% and 77% of the Pt initially present in the MEA using respectively solvent extraction or ion exchange resin separation alternatives. The recovered platinum alkaline solutions have been further used for Pt/C particles synthesis via a modified polyol method and it was shown that although the resin alternative resulted in slightly lower recovery yield, the catalyst prepared via this alternative satisfied morphological and electrochemical properties for the oxygen reduction reaction (ORR) by performing similarly to a commercial state-of-art Pt/C catalyst. The feasibility of closed loop Pt/C catalyst recycling was thus proven. The environmental impacts of the two recycling alternatives have been compared using life cycle assessment methodology (LCA) and similar impacts have been found for both alternatives from the point of view of the entire MEA life cycle. The ion exchange resin alternative has thus been selected as the most appropriate one.