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The massive demand for battery supply results in high consumption of resources, some of which are scarce. It is therefore essential to extend the battery life cycle through efficient collection, sorting, refurbishment, repurposing and reuse as well as to incorporate efficient battery recycling at the end of its life to support self-driving supply chains. The key developments supporting ongoing growth of the global battery market are the development of a complete, self-running, efficient, and transparent battery value chain, including sustainable sourcing of materials and components, use, reuse, selective collection at the end of life, and efficient recycling.

This study’s main objective is to help readers understand the major role of developing a circular economy in the battery industry across upstream, midstream, and downstream operations. The top 3 battery application segments, which comprise the 5 battery categories, analyzed in this study are transportation, stationary, and consumer electronics.

The analysis covers the volume of batteries generated by 5 top categories globally, current battery waste collection and recycling rates, and the potential for battery reuse (refurbishment, second use, and repurposing) and recycling market development. The revenue forecast dedicated to the development of a circular economy for batteries focuses on collection and transportation, sorting, reuse, and recycling. The growth analysis is based on the doing-more-with-less approach and the 6P framework that comprises policies, products, processes, people/personas, partnerships, and platforms.

The study assesses various technological advancements that help to push efficiency across the circular economy of batteries, including digitalization of the supply chains, manufacturing, use and reuse, and end-of-life management, with technologies and services such as digital material passport, life-cycle assessment tools, robotics, AI-based sorting, and data analytic platforms. The study also includes detailed analysis of key growth accelerators, with examples of companies to watch. The study period is 2020 to 2030 using a base year of 2023.

Author: Paulina Blaszczyk

The Impact of the Top 3 Strategic Imperatives on the Micromobility Sharing Industry

Customer Value Chain Compression

Why: Micromobility's core value lies in solving the first-mile/last-mile problem.
Integration with public transit, ride-hailing, and other modes helps in seamless travel, making micromobility an indispensable transportation solution.
Development of app-based solutions that integrate micromobility with other transportation options will become crucial.
Frost Perspective: True multimodality will be essential to attract consistent ridership and to compete in the urban mobility space.
Cities will likely incentivize and regulate operators to ensure a convenient and cohesive transportation infrastructure.

Disruptive Technologies

Why: Ensuring user safety with high-quality vehicles and clear regulations builds public trust and fosters positive relationships with governing bodies.
Sustainable battery technologies and end-of-lifecycle policies address environmental concerns and appeal to socially conscious riders.
Frost Perspective: Public backlash against unsafe micromobility practices has led to stricter regulations.
Safety and sustainability will transition from competitive advantages into minimum requirements for operating in urban areas.

Innovative Business Models

Why: Detailed usage data is critical to understanding demand patterns, fleet wear-and-tear, and potential expansion zones.
This data informs fleet deployment, maintenance, and strategic decision making.
Major technology companies are presented with the opportunity to monetize data.
Frost Perspective: Companies that effectively harness data and analytics to streamline operations and spot micro trends will gain a significant edge.
Privacy-conscious data collection and partnerships with city planners will be crucial for long-term success.

Scope of Analysis

This study focuses on the profitability of shared micromobility participants in North America (United States and Canada) and Europe (includes the United Kingdom, Russia, and Turkey).
The aim of the study is to analyze the evolving competitive landscape, cost breakdown, revenue breakdown, factors that can help companies reach profitability, and challenges preventing companies from achieving profitability.
The shared mobility market includes eScooters, eBikes, and traditional bikes and excludes cargo bikes, electric motorcycles, and mopeds.
The study analyzes the different pricing models employed by operators, including pay-as-you-go, subscriptions, and even advertising.
The micromobility sharing market is in the growth phase; therefore, evolving mobility needs, a focus on sustainability, and public-private partnerships will drive exponential growth.

Scope	Details
Geographic coverage	North America, Europe
Study period	2023–2030
Base year	2023
Forecast period	2024–2030
Monetary unit	US Dollars

Segmentation

Micromobility Sharing: Segmentation, Europe and North America, 2023

Micromobility Sharing

eScooter Sharing

eScooter sharing is a shared service, where electric eScooters are available for short-term rentals.
eScooters are majorly dockless and can be dropped off and picked up from arbitrary locations in the service area.
These scooters are one of the least expensive and most popular modes of micromobility transport.
Examples include Lime, Bird, and TIER.

Bike Sharing

Bike sharing is a shared service, where bicycles are made available for short-term rentals.
Bike sharing can be fixed, flexible, or dockless.
Some bike sharing systems are free; however, most require riders to pay a user fee or subscription.
Bike sharing can be two types: traditional bikes (pedal bikes) and electric bikes (eBikes).
Examples include Next Bike, Santander Cycles, and Bicing.

Competitive Environment

Number of Competitors	300+ companies with a fleet size greater than 100
Competitive Factors	Cost, trips per vehicle per day, proportion of traditional and eBike fleets, customer support, safety, availability, and technology
Key End-user Industry Verticals	B2C and B2B customers (in a few cases)
Leading Competitors	TIER Mobility, Bird, Bolt, Dott, Lime, Citibike, Marti Technologies, Nextbike, Santander Cycles, and Donkey Republic
Other Notable Competitors	Lyft, Bin Bin, Bicing, Drivvy, Voi, Ryde, and Bike Share Toronto
Distribution Structure	OEMs, operators, gig workers, technology; vehicles booked through an app
Notable Acquisitions and Mergers	TIER and Dott merged in 2024, Bird acquired Spin from TIER in 2023

Key Competitors by Region Global

TIER MOBILITY
BIRD
LIME
DOTT
BERYL BIKES
NEXTBIKE

North America

BIRD
LIME
SPIN (ACQUIRED BY BIRD)
LYFT
VEO RIDE
WIND MOBILITY
MICROMOBILITY.COM (HELBIZ)
CITIBIKE
CAPITAL BIKESHARE
DIVVY
BIKESHARE TORONTO

Europe

BINBIN
BIRD
BOLT
DOTT
LIME
TIER MOBILITY
VOI
BICING
SANTANDER BIKES
BERYL BIKES
NEXTBIKE
DONKEY REPUBLIC

Infographic

Table of Contents

Strategic Imperatives

Why Is It Increasingly Difficult to Grow?

The Strategic Imperative 8™

The Impact of the Top 3 Strategic Imperatives on the Circular Economy of Battery Recycling Industry

Growth Opportunities Fuel the Growth Pipeline Engine™

Growth Opportunity Analysis

Scope of Analysis

Geographic Coverage

Market Definitions

Market Definitions (continued)

Potential for Circular Economy of Batteries across the Transportation Segment

Potential for Circular Economy of Batteries across the Stationary Segment

Potential for Circular Economy of Batteries across the Consumer Electronics Segment

Key Competitors

Key Competitors (continued)

Companies to Watch: Growth Accelerators in Circular Economy of Batteries

Growth Metrics

Key Takeaways

Key Takeaways (continued)

Key Battery Applications: End-user Analysis

Sustainability and Circular Economy of the Battery Repair, Reuse, & Recycling Market: 6P Framework

Sustainability and Circular Economy of the Battery Repair, Reuse, & Recycling Market: 6P Framework (continued)

Circular Economy of Batteries across the Value Chain: Overview

Circular Economy of Batteries: Growth Opportunities in Upstream Processes

Circular Economy of Batteries: Growth Opportunities in Midstream Processes

Circular Economy of Batteries: Growth Opportunities in Downstream Processes

Growth Drivers

Growth Restraints

Forecast Considerations

Demand Forecast

Demand Forecast by Application

Demand Forecast by Region

Volume Forecast by Generation, Collection & Recovery, and Recovery Rate

Volume Forecast for End-of-life Battery Generation by Region

Volume Forecast of End-of-life Battery Collection & Recovery by Region

End-of-life Battery Recycling Volume Forecast by Region

End-of-life Battery Reuse Volume Forecast by Region

Volume Forecast of End-of-life Battery Generation by Application

Volume Forecast by End-of-life Battery Recycling and Reuse

Volume Forecast by End-of-life Battery Recycling and Reuse: Stationary

Volume Forecast by End-of-life Battery Recycling and Reuse: Transportation

Volume Forecast by End-of-life Battery Recycling and Reuse: Consumer Electronics

End-of-life Battery Management Revenue Forecast

Revenue Forecast by End-of-life Battery Recycling and Reuse by Region

Revenue Forecast by End-of-life Battery Recycling and Reuse

End-of-life Battery Recycling Revenue Forecast by Region

End-of-life Battery Reuse Revenue Forecast by Region

Revenue Forecast by End-of-Life Battery Recycling and Reuse: Transportation

Revenue Forecast by End-of-Life Battery Recycling and Reuse: Stationary

Revenue Forecast by End-of-Life Battery Recycling and Reuse: Consumer Electronics

Revenue Forecast Analysis

Revenue Forecast Analysis (continued)

Pricing Trends and Forecast Analysis

Competitive Environment

Revenue Share

Revenue Share Analysis

Examples of Partnerships across the Circular Economy of Batteries Ecosystem

Examples of Partnerships across the Circular Economy of Batteries Ecosystem (continued)

Growth Opportunity Analysis: Europe

Growth Metrics

Overview of Circular Economy of Batteries in Europe

EU Roadmap to the Circular Economy of Batteries

Demand Forecast

Generation and Collection & Recovery Volume Forecast

Volume Forecast by End-of-life Battery Recycling and Reuse

Revenue Forecast

End-of-life Battery Revenue Forecast by Recycling and Reuse

Revenue Forecast Analysis

Case Study: Companies to Watch: Growth Accelerators for Li-Ion Battery Recycling Development in Europe

Growth Opportunity Analysis: Asia-Pacific

Growth Metrics

Overview of Circular Economy of Batteries in APAC

Battery Demand Forecast

Endo-of-life Battery Generation and Collection & Recovery Volume Forecast

End-of-life Battery Volume Forecast by Recycling and Reuse

End-of-life Battery Management Revenue Forecast

Revenue Forecast by End-of-life Battery Recycling and Reuse

Revenue Forecast Analysis

Growth Opportunity Analysis: Americas

Growth Metrics

Overview of Circular Economy of Batteries in the Americas

Demand Forecast

End-of-Life Battery Generation and Collection & Recovery Volume Forecast

Volume Forecast by End-of-life Battery Recycling and Reuse

Revenue Forecast

Revenue Forecast by End-of-life Battery Recycling and Reuse

Revenue Forecast Analysis

Growth Opportunity Analysis: Middle East & Africa

Growth Metrics

Overview of Circular Economy of Batteries in MEA

Demand Forecast

End-of-life Battery Generation and Collection & Recovery Volume Forecast

Volume Forecast by End-of-life Battery Recycling and Reuse

End-of-life Battery Management Revenue Forecast

Revenue Forecast by End-of-life Battery Recycling and Reuse

Revenue Forecast Analysis

Growth Opportunity Universe

Growth Opportunity 1: Digital Battery Passport

Growth Opportunity 1: Digital Battery Passport (continued)

Growth Opportunity 2: Vehicle-to-grid (V2G) with Refurbished & Repurposed Used EV Batteries in Stationary Applications

Growth Opportunity 2: Vehicle-to-grid (V2G) with Refurbished & Repurposed Used EV Batteries in Stationary Applications (continued)

Growth Opportunity 3: Intelligent Battery Sorting for Effective End-of-life Management

Growth Opportunity 3: Intelligent Battery Sorting for Effective End-of-life Management (continued)

Growth Opportunity 4: Battery Intelligence Platform for Smart Maintenance

Growth Opportunity 4: Battery Intelligence Platform for Smart Maintenance (continued)

Next Steps

Your Next Steps

Why Frost, Why Now?

List of Exhibits

List of Exhibits (continued)

Legal Disclaimer

List of Figures & Charts

List of Figures

Circular Economy of Batteries: Overview of Battery Categories, Global, 2023
Circular Economy of Batteries: Share of Primary and Secondary Batteries, Global, 2023
Circular Economy of Batteries: Overview of Battery Types by Chemistry, Global, 2023
Circular Economy of Batteries: Overview of Key Battery Applications, Global, 2023
Circular Economy of Batteries: Overview of Battery End-of-Life Management Included in the Revenue Forecast, Global, 2023
Circular Economy of Batteries: Potential for Circular Economy of Batteries across Transportation Segment, Global, 2023–2030
Circular Economy of Batteries: Potential for Circular Economy of Batteries across the Stationary Segment, Global, 2023–2030
Circular Economy of Batteries: Potential for Circular Economy of Batteries across the Consumer Electronics Segment, Global, 2023–2030
Circular Economy of Batteries: Companies to Watch, Global, 2023
Circular Economy of Batteries: Growth Metrics, Global, 2023
Circular Economy of Batteries: Share of Battery Demand by Application, Global, 2023
Circular Economy of Batteries: Hierarchy Approach across Upstream, Midstream, and Downstream Operations, Global, 2023
Circular Economy of Batteries: Growth Opportunities in Upstream Operations, Global, 2023
Circular Economy of Batteries: Growth Opportunities in Midstream Operations, Global, 2023
Circular Economy of Batteries: Growth Opportunities in Downstream Operations, Global, 2023
Circular Economy of Batteries: Growth Drivers, Global, 2024–2030
Circular Economy of Batteries: Growth Restraints, Global, 2024–2030
Circular Economy of Batteries: Demand Forecast, Global, 2020–2030
Circular Economy of Batteries: Battery Demand Forecast by Application, Global, 2020–2030
Circular Economy of Batteries: Battery Demand Forecast by Region, Global, 2020–2030
Circular Economy of Batteries: Volume Forecast by Generation, Collection & Recovery, and Recovery Rate, Global, 2020–2030
Circular Economy of Batteries: End-of-life Battery Generation Forecast by Region, Global, 2020–2030
Circular Economy of Batteries: End-of-life Battery Collection & Recovery Forecast by Region, Global, 2020–2030
Circular Economy of Batteries: End-of-life Battery Recycling Forecast by Region, Global, 2020–2030
Circular Economy of Batteries: End-of-life Battery Reuse Forecast by Region, Global, 2020–2030
Circular Economy of Batteries: End-of-life Battery Generation Forecast by Application, Global, 2020–2030
Circular Economy of Batteries: Volume Forecast by End-of-life Battery Recycling and Reuse, Global, 2020–2030
Circular Economy of Batteries: Volume Forecast by End-of-life Battery Recycling and Reuse – Stationary, Global, 2020–2030
Circular Economy of Batteries: Volume Forecast by End-of-life Battery Recycling and Reuse – Transportation, Global, 2020–2030
Circular Economy of Batteries: Volume Forecast by End-of-life Battery Recycling and Reuse – Consumer Electronics, Global, 2020–2030
Circular Economy of Batteries: End-of-life Battery Management Revenue Forecast, Global, 2020–2030
Circular Economy of Batteries: Revenue Forecast by End-of-life Battery Recycling and Reuse by Region, Global, 2020–2030
Circular Economy of Batteries: Revenue Forecast by End-of-life Battery Recycling and Reuse, Global, 2020–2030
Circular Economy of Batteries: End-of-life Battery Recycling Revenue Forecast by Region, Global, 2020–2030
Circular Economy of Batteries: End-of-life Battery Reuse Revenue Forecast by Region, Global, 2020–2030
Circular Economy of Batteries: Revenue Forecast by End-of-Life Battery Recycling and Reuse – Transportation, Global, 2020–2030
Circular Economy of Batteries: Revenue Forecast by End-of-Life Battery Recycling and Reuse – Stationary, Global, 2020–2030
Circular Economy of Batteries: Revenue Forecast by End-of-Life Battery Recycling and Reuse – Consumer Electronics, Global, 2020–2030
Circular Economy of Batteries: Revenue Share of Top Participants, Global, 2023
Circular Economy of Batteries: Growth Metrics, Europe, 2023
Circular Economy of Batteries: EU Battery Regulation Roadmap, EU, 2024–2027
Circular Economy of Batteries: Battery Demand Forecast, Europe, 2020–2030
Circular Economy of Batteries: End-of-life Battery Generation and Collection & Recovery Volume Forecast, Europe, 2020–2030
Circular Economy of Batteries: Volume Forecast by End-of-life Battery Recycling and Reuse, Europe, 2020–2030
Circular Economy of Batteries: End-of-life Battery Management Revenue Forecast, Europe, 2020–2030
Circular Economy of Batteries: End-of-life Battery Revenue Forecast by Recycling and Reuse, Europe, 2020–2030
Circular Economy of Batteries: Li-ion Battery Recycling Capacity Forecast by Key Players, Europe, 2023 and 2030
Circular Economy of Batteries: Growth Metrics, APAC, 2023
Circular Economy of Batteries: Battery Demand Forecast, APAC, 2020–2030
Circular Economy of Batteries: End-of-life Battery Generation and Collection & Recovery Volume Forecast, APAC, 2020–2030
Circular Economy of Batteries: Volume Forecast by End-of-life Battery Recycling and Reuse, APAC, 2020–2030
Circular Economy of Batteries: End-of-life Battery Management Revenue Forecast, APAC, 2020–2030
Circular Economy of Batteries: End-of-life Battery Recycling and Reuse Revenue Forecast, APAC, 2020–2030
Circular Economy of Batteries: Growth Metrics, Americas, 2023
Circular Economy of Batteries: Battery Demand Forecast, Americas, 2020–2030
Circular Economy of Batteries: End-of-life Battery Generation and Collection & Recovery Volume Forecast, Americas, 2020–2030
Circular Economy of Batteries: Volume Forecast by End-of-life Battery Recycling and Reuse, Americas, 2020–2030
Circular Economy of Batteries: End-of-life Battery Management Revenue Forecast, Americas, 2020–2030
Circular Economy of Batteries: Revenue Forecast by End-of-life Battery Recycling and Reuse, Americas, 2020–2030
Circular Economy of Batteries: Growth Metrics, MEA, 2023
Circular Economy of Batteries: Battery Demand Forecast, MEA, 2020–2030
Circular Economy of Batteries: End-of-life Battery Generation and Collection & Recovery Volume Forecast, MEA, 2020–2030
Circular Economy of Batteries: Volume Forecast by End-of-life Battery Recycling and Reuse, MEA, 2020–2030
Circular Economy of Batteries: End-of-life Battery Management Revenue Forecast, MEA, 2020–2030
Circular Economy of Batteries: Revenue Forecast by End-of-life Battery Recycling and Reuse, MEA, 2020–2030

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The massive demand for battery supply results in high consumption of resources, some of which are scarce. It is therefore essential to extend the battery life cycle through efficient collection, sorting, refurbishment, repurposing and reuse as well as to incorporate efficient battery recycling at the end of its life to support self-driving supply chains. The key developments supporting ongoing growth of the global battery market are the development of a complete, self-running, efficient, and transparent battery value chain, including sustainable sourcing of materials and components, use, reuse, selective collection at the end of life, and efficient recycling. This study s main objective is to help readers understand the major role of developing a circular economy in the battery industry across upstream, midstream, and downstream operations. The top 3 battery application segments, which comprise the 5 battery categories, analyzed in this study are transportation, stationary, and consumer electronics. The analysis covers the volume of batteries generated by 5 top categories globally, current battery waste collection and recycling rates, and the potential for battery reuse (refurbishment, second use, and repurposing) and recycling market development. The revenue forecast dedicated to the development of a circular economy for batteries focuses on collection and transportation, sorting, reuse, and recycling. The growth analysis is based on the doing-more-with-less approach and the 6P framework that comprises policies, products, processes, people/personas, partnerships, and platforms. The study assesses various technological advancements that help to push efficiency across the circular economy of batteries, including digitalization of the supply chains, manufacturing, use and reuse, and end-of-life management, with technologies and services such as digital material passport, life-cycle assessment tools, robotics, AI-based sorting, and data analytic platforms. The study also includes detailed analysis of key growth accelerators, with examples of companies to watch. The study period is 2020 to 2030 using a base year of 2023. Author: Paulina Blaszczyk

More Information

More Information
Deliverable Type	Market Research
Author	Paulina Blaszczyk
Industries	Environment
No Index	No
Is Prebook	No
Keyword 1	Circular Economy
Keyword 2	Battery Recycling
Keyword 3	Ev Battery Recycling
List of Charts and Figures	Circular Economy of Batteries: Overview of Battery Categories, Global, 2023~ Circular Economy of Batteries: Share of Primary and Secondary Batteries, Global, 2023~ Circular Economy of Batteries: Overview of Battery Types by Chemistry, Global, 2023~ Circular Economy of Batteries: Overview of Key Battery Applications, Global, 2023~ Circular Economy of Batteries: Overview of Battery End-of-Life Management Included in the Revenue Forecast, Global, 2023~ Circular Economy of Batteries: Potential for Circular Economy of Batteries across Transportation Segment, Global, 2023–2030~ Circular Economy of Batteries: Potential for Circular Economy of Batteries across the Stationary Segment, Global, 2023–2030~ Circular Economy of Batteries: Potential for Circular Economy of Batteries across the Consumer Electronics Segment, Global, 2023–2030~ Circular Economy of Batteries: Companies to Watch, Global, 2023~ Circular Economy of Batteries: Growth Metrics, Global, 2023~ Circular Economy of Batteries: Share of Battery Demand by Application, Global, 2023~ Circular Economy of Batteries: Hierarchy Approach across Upstream, Midstream, and Downstream Operations, Global, 2023~ Circular Economy of Batteries: Growth Opportunities in Upstream Operations, Global, 2023~ Circular Economy of Batteries: Growth Opportunities in Midstream Operations, Global, 2023~ Circular Economy of Batteries: Growth Opportunities in Downstream Operations, Global, 2023~ Circular Economy of Batteries: Growth Drivers, Global, 2024–2030~ Circular Economy of Batteries: Growth Restraints, Global, 2024–2030~ Circular Economy of Batteries: Demand Forecast, Global, 2020–2030~ Circular Economy of Batteries: Battery Demand Forecast by Application, Global, 2020–2030~ Circular Economy of Batteries: Battery Demand Forecast by Region, Global, 2020–2030~ Circular Economy of Batteries: Volume Forecast by Generation, Collection & Recovery, and Recovery Rate, Global, 2020–2030~ Circular Economy of Batteries: End-of-life Battery Generation Forecast by Region, Global, 2020–2030~ Circular Economy of Batteries: End-of-life Battery Collection & Recovery Forecast by Region, Global, 2020–2030~ Circular Economy of Batteries: End-of-life Battery Recycling Forecast by Region, Global, 2020–2030~ Circular Economy of Batteries: End-of-life Battery Reuse Forecast by Region, Global, 2020–2030~ Circular Economy of Batteries: End-of-life Battery Generation Forecast by Application, Global, 2020–2030~ Circular Economy of Batteries: Volume Forecast by End-of-life Battery Recycling and Reuse, Global, 2020–2030~ Circular Economy of Batteries: Volume Forecast by End-of-life Battery Recycling and Reuse – Stationary, Global, 2020–2030~ Circular Economy of Batteries: Volume Forecast by End-of-life Battery Recycling and Reuse – Transportation, Global, 2020–2030~ Circular Economy of Batteries: Volume Forecast by End-of-life Battery Recycling and Reuse – Consumer Electronics, Global, 2020–2030~ Circular Economy of Batteries: End-of-life Battery Management Revenue Forecast, Global, 2020–2030~ Circular Economy of Batteries: Revenue Forecast by End-of-life Battery Recycling and Reuse by Region, Global, 2020–2030~ Circular Economy of Batteries: Revenue Forecast by End-of-life Battery Recycling and Reuse, Global, 2020–2030~ Circular Economy of Batteries: End-of-life Battery Recycling Revenue Forecast by Region, Global, 2020–2030~ Circular Economy of Batteries: End-of-life Battery Reuse Revenue Forecast by Region, Global, 2020–2030~ Circular Economy of Batteries: Revenue Forecast by End-of-Life Battery Recycling and Reuse – Transportation, Global, 2020–2030~ Circular Economy of Batteries: Revenue Forecast by End-of-Life Battery Recycling and Reuse – Stationary, Global, 2020–2030~ Circular Economy of Batteries: Revenue Forecast by End-of-Life Battery Recycling and Reuse – Consumer Electronics, Global, 2020–2030~ Circular Economy of Batteries: Revenue Share of Top Participants, Global, 2023~ Circular Economy of Batteries: Growth Metrics, Europe, 2023~ Circular Economy of Batteries: EU Battery Regulation Roadmap, EU, 2024–2027~ Circular Economy of Batteries: Battery Demand Forecast, Europe, 2020–2030~ Circular Economy of Batteries: End-of-life Battery Generation and Collection & Recovery Volume Forecast, Europe, 2020–2030~ Circular Economy of Batteries: Volume Forecast by End-of-life Battery Recycling and Reuse, Europe, 2020–2030~ Circular Economy of Batteries: End-of-life Battery Management Revenue Forecast, Europe, 2020–2030~ Circular Economy of Batteries: End-of-life Battery Revenue Forecast by Recycling and Reuse, Europe, 2020–2030~ Circular Economy of Batteries: Li-ion Battery Recycling Capacity Forecast by Key Players, Europe, 2023 and 2030~ Circular Economy of Batteries: Growth Metrics, APAC, 2023~ Circular Economy of Batteries: Battery Demand Forecast, APAC, 2020–2030~ Circular Economy of Batteries: End-of-life Battery Generation and Collection & Recovery Volume Forecast, APAC, 2020–2030~ Circular Economy of Batteries: Volume Forecast by End-of-life Battery Recycling and Reuse, APAC, 2020–2030~ Circular Economy of Batteries: End-of-life Battery Management Revenue Forecast, APAC, 2020–2030~ Circular Economy of Batteries: End-of-life Battery Recycling and Reuse Revenue Forecast, APAC, 2020–2030~ Circular Economy of Batteries: Growth Metrics, Americas, 2023~ Circular Economy of Batteries: Battery Demand Forecast, Americas, 2020–2030~ Circular Economy of Batteries: End-of-life Battery Generation and Collection & Recovery Volume Forecast, Americas, 2020–2030~ Circular Economy of Batteries: Volume Forecast by End-of-life Battery Recycling and Reuse, Americas, 2020–2030~ Circular Economy of Batteries: End-of-life Battery Management Revenue Forecast, Americas, 2020–2030~ Circular Economy of Batteries: Revenue Forecast by End-of-life Battery Recycling and Reuse, Americas, 2020–2030~ Circular Economy of Batteries: Growth Metrics, MEA, 2023~ Circular Economy of Batteries: Battery Demand Forecast, MEA, 2020–2030~ Circular Economy of Batteries: End-of-life Battery Generation and Collection & Recovery Volume Forecast, MEA, 2020–2030~ Circular Economy of Batteries: Volume Forecast by End-of-life Battery Recycling and Reuse, MEA, 2020–2030~ Circular Economy of Batteries: End-of-life Battery Management Revenue Forecast, MEA, 2020–2030~ Circular Economy of Batteries: Revenue Forecast by End-of-life Battery Recycling and Reuse, MEA, 2020–2030~
Podcast	No
WIP Number	MH54-01-00-00-00

Circular Economy of the Battery Recycling Market, Global, 2024 2030

Efficient Battery Reuse, Resource Recovery, and Digitalized Midstream and Downstream Operations Are Driving Transformational Growth toward the Green Transition and Sustainable Mobility

RELEASE DATE
26-Jul-2024

REGION
Global

Deliverable Type
Market Research

Research Code: MH54-01-00-00-00

SKU: EN_2024_888

$4,950.00

In stock

SKU

EN_2024_888