Summary

IDTechEx forecasts that the Li-ion battery recycling market will reach US$52B in value by 2045. Li-ion battery (LIB) demand continues to grow across electric vehicle (EV), energy storage system (ESS), and consumer electronics markets. The sustainability of Li-ion batteries relies on their entire lifecycle management, including at end-of-life (EOL). Eventually, LIBs no longer meet their performance requirements and reach EOL. EOL LIBs can be recycled to reclaim the valuable and critical raw materials contained within them, and have these materials reintroduced into new LIB manufacturing. These batteries could also be repurposed for second-life applications, which would delay recycling. Together, these EOL management routes form the LIB circular economy.

 

By recycling LIBs, this can allow new battery manufacturers to shield themselves against volatile raw material prices, domesticate a more stable supply of materials, and meet regulated targets in key regions. Recyclers can also generate revenues from the key products of recycling, including black mass and/or battery-grade metal salts. With all stakeholders recognizing the benefits of LIB recycling, this market is projected to grow at a CAGR of 17% over the next twenty years.

 

Li-ion Battery Recycling Market Activity and Value Chain

This IDTechEx report features over 120 announcements made by recyclers in recent years, covering new recycling facility announcements, US$3.1B in funding and investments, and key partnerships. This activity suggests that the LIB recycling market is hyperactive and becoming more crowded, with recyclers expanding their operations globally, developing their technologies, and forming supply and strategic agreements with automotive OEMs, collection logistics players, cell manufacturers, chemical suppliers, stationary ESS and second-life battery players.

 

A significant volume of new LIB recycling capacity was added across the last few years, including mechanical and hydrometallurgical refining capacity. By the end of 2024, global recycling capacity grew to 879 ktpa (kilotonnes-per-annum) of complete EOL LIBs. Much black mass being produced from mechanical recycling in European and North American markets is leaving to the Asia-Pacific where more hydrometallurgical refining capacity exists. Here, the black mass is used as feedstock and refined to produce higher value battery-grade metal salts. Therefore, recyclers in western countries are looking to establish more commercial-scale hydrometallurgical capacity to prevent critical materials leaving their respective regions.

 

This IDTechEx report details activity by key player and by key region across recycling facilities and expansion roadmaps, funding and investments, partnerships, joint ventures (JV), memorandums of understanding (MOU), mergers and acquisitions (M&A).

 

 

Advancements in LIB Recycling Technologies - Direct Recycling, Graphite and Binders

Li-ion Battery Recycling Regulations

Forecasts

Company Profiles

Key Aspects

• In-depth analysis on the global Li-ion battery recycling market, featuring over 120 announcements made by Li-ion battery recyclers across the last few years. This includes key player activity, new and planned recycling facilities with their capacities, technologies, capacities, products, and facility roadmaps. Also included is key research on recycler funding and investments, strategic and supply agreements with automotive OEMs, collection logistics players, and chemical suppliers, etc. Other key announcements include joint ventures (JV), mergers and acquisitions (M&A), divestments, global expansions, and recycling stationary battery energy storage systems (BESS).
•  Comprehensive discussion and analysis on Li-ion battery recycling technologies, including mechanical, hydrometallurgical, pyrometallurgical, and direct recycling technologies.
•  A new and thorough investigation and landscape into direct recycling technologies is provided, including analyses on key players' technologies and technology readiness level (TRL), potential cost benefits, advantages and challenges to be overcome.
•  A new chapter on graphite recycling for Li-ion batteries is provided in this report, including discussion and analysis on the importance of graphite recycling, challenges to be overcome and key players' ability to recycle and recover battery-grade graphite. This discusses key graphite recycling technologies, and key player activity from LIB recyclers and smaller start-ups focused specifically on graphite recycling for Li-ion battery anodes. A patent analysis on graphite recycling is also provided, which discusses key LIB recyclers' technologies.
•  A new chapter including thorough discussion and analysis on LIB binders, PFAS restrictions, PVDF alternatives, and binder recycling technologies strategies, and economics.
•  Detailed analysis of Li-ion battery recycling value chain and economics of recycling. This includes key discussion on recycling different LIB chemistries, including LFP, key products from recycling, and key trends such as flow of key products and materials through the value chain, competition from second-life EV battery repurposing, EV batteries lasting longer than anticipated, and open-loop and closed-loop business models.
•  Key discussion and analysis on Li-ion battery recycling regulations and policies by region. This includes brand-new analysis from IDTechEx on the viability of LIB recyclers and automotive OEMs to meet EU Battery Regulation targets for minimum recycled contents in new EV batteries. This presents several scenarios which use the recycling of different feedstocks (EV batteries and manufacturing scrap) within the EU, at different collection rates.
•  An introduction and overview of the Li-ion battery market, different LIB applications, and the battery circular economy is also provided.
•  Granular 20-year Li-ion battery recycling forecasts, by region China, US, Europe, RoW (GWh, kilotonnes, value (US$B)), by chemistry LFP, LMFP, low-nickel, mid-nickel, high-nickel, ultra-high-nickel, Li-Mn-Rich, LNMO, LMO, LCO (GWh, kilotonnes) for the 2023 - 2045 period.
•  Granular 20-year market forecasts for critical battery materials and metals to be recovered from recycling lithium, nickel, cobalt, manganese, graphite, aluminium, iron, and aluminium and copper current collector foils (kilotonnes, value (US$B)) for the 2023 - 2045 period.
•  Granular 20-year market forecasts for Li-ion battery recycling by source of feedstock / market sector, including BEV cars, manufacturing scrap, other EVs (buses, trucks, LCVs), PHEV cars, energy storage systems (ESS), and consumer electronics (ktonnes) for the 2023 - 2045 period.
•  Each region China, US, Europe, RoW also includes its own forecast section, with breakdowns by cathode chemistry, source of recycling feedstock / market sector, and critical materials and metals to be recovered.
•  60+ company profiles including Li-ion battery recyclers, and other players in the LIB circular economy such as collection logistics and transportation companies, graphite recyclers, and players developing advanced or semi-automated battery disassembly technologies.

ページTOPに戻る

Table of Contents