Lithium-ion Battery Recycling and the Roadblocks it is Facing
Samrath Singh Kochar, Founder and CEO, Trontek Electronics
Electronic vehicles, popularly known as EVs have been on the rise for a few years. In May 2024 only, EV sales in India saw a jump of 20.88 percent. The Indian EV market is expected to expand from US$ 3.21 billion in 2022 to US$113.99 billion by 2029, with a CAGR of 66.52%.
The growing demands for EVs, renewable energy solutions, and portable electronic devices have led to a surge in lithium-ion battery usage. These batteries are pillars of sustainable energy solutions since they have a high energy density, are lightweight, and have a longer life cycle. The demand for lithium-ion batteries is expected to grow about 33 percent annually by 2030.
How these batteries are different from those of normal batteries?
Well, lithium-ion batteries are rechargeable and have very little environmental impact as compared to those of normal batteries. In EVs, these batteries provide a zero-emission alternative to internal combustion engines, which are dependent on fossil fuels and thus play a critical role in reducing both air pollution and carbon emissions. They are a part of sustainable solutions in the battery manufacturing sector since they contribute to reducing carbon footprint and are recyclable, which implies they can be used more than once making it cost-effective.
Lithium-ion battery recycling and challenges
Battery recycling is necessary to extract valuable materials which are difficult to mine. It also reduces the pollution and fire hazards from batteries. Lithium-ion batteries have an impressive recycling rate i.e. 95 percent. Not only the recycling rate, the metals within these batteries such as lithium, cobalt, and nickel retain their values even after its lifecycle has ended.
Here’s Why Recycling Batteries is Crucial and its Impact on the Environment:
- Preventing Pollution: Improper disposal of batteries can cause hazardous leaks of materials like lithium and cobalt into the soil and water, leading to air and water contamination. This threatens ecosystems and harms communities.
- Reducing Greenhouse Gas Emissions: Some battery recycling methods can be energy-intensive, potentially releasing harmful emissions. However, recycling is still far less damaging than mining new materials.
- Preserving Resources: Failing to recycle batteries puts pressure on mining for materials like lithium, cobalt, and nickel, which depletes non-renewable resources and contributes to environmental degradation, including deforestation and water pollution.
The global EV battery recycling market, valued at approximately USD 3 billion in 2023, is expected to grow at a compound annual growth rate (CAGR) of over 27% from 2024 to 2030. This surge highlights the growing necessity for closed-loop recycling systems as more batteries enter the waste stream. However, the sector does face certain key challenges:
- Heavy reliance on Manual labor: The direct recycling methods involve heavy dependence on manual particularly in mechanical disassembly. The task being repetitive requires significant manual involvement leading to inefficiencies, worker safety, and high labor costs.
- Rising demand for raw materials: Key raw materials such as lithium, nickel, and cobalt are essential for battery production. However, the supply of these raw materials is highly concentrated in specific regions which leads to uneven distribution of raw materials. The high dependence on limited geographical regions creates vulnerabilities in the global supply chain.
- Low collection rates: If batteries are discarded improperly in landfills, they can leak toxic substances which are harmful for the environment.
- Safety Hazards: Lithium-ion batteries can easily catch fire if not handled properly during the recycling process which makes the whole process hazardous.
- Need for stronger legislation: Despite advancements in technologies, several countries remain in the early stages of the development of recycling lithium-ion batteries. In its Promote Circularity campaign, the Ministry of Electronics and Information Technology transferred cost-effective recycling technology to nine industries and start-ups in 2023. However, without any effective regulations and standardization, the collection and recycling might fall short of expectations.
The growth of the electric vehicle market presents both opportunities and challenges for battery recycling. By addressing the complexities of recycling processes, enhancing safety measures, and fostering industry collaboration, we can move towards a more sustainable circular economy.