@misc{AmaoDorneanuArellanoGarcia, author = {Amao, Khalid and Dorneanu, Bogdan and Arellano-Garc{\´i}a, Harvey}, title = {Economic Analysis of Novel Pathways for Recovery of Lithium Battery Waste}, series = {Computer Aided Chemical Engineering}, volume = {51}, journal = {Computer Aided Chemical Engineering}, issn = {1570-7946}, doi = {10.1016/B978-0-323-95879-0.50271-X}, pages = {1621 -- 1626}, abstract = {Using the Umicore process, a current state-of-the-art recycling in the metal recovery industry for lithium battery waste, as a baseline, this contribution examines economic and environmentally friendly solutions for effective metal recovery from spent LIBs. At the same time, possible synergies between existing resource use from other manufacturing and waste treatment industries are considered as valuable input to metal recycling, while also reducing the amount of atmospheric carbon. This further presents a case for possible integration of various waste management approaches as a single business unit for economic incentive and profitability for possible investment.}, language = {en} }