The Ministry of Environment, Forest and Climate Change (MoEFC), Government of India, has issued a notification on rules for battery waste management in view of the shift to electric vehicles. Anticipating a need to have an organised channel for the safe disposal and recycling of batteries, the rules, called the Battery Waste Management Rules, 2022, are applicable to the producer, dealer, consumer, entities involved in collection, segregation, transportation, refurbishment and recycling of waste batteries. 

All types of batteries, regardless of their chemistry, shape, volume, weight, material composition and use are covered under the rules. The rules also have a provision for penal action in case of a violation and imposition of environmental compensation. The ministry has also set a minimum recovery percentage target for recovered materials out of dry weight batteries. 

The recovered materials will be then used to produce new batteries. For FY2024-25, the recovery target is set at 70 percent whereas for FY2025-26, it is 80 percent. The target for FY2026-27 is 90 percent. Mentioning that the recovery target may be reviewed by the committee once every four years to revisit the minimum levels of recovered battery materials in light of technical and scientific progress and emerging new technologies in waste management, the notification is expected to contribute towards enhancing each and every EV’s cost to the environment in India. This is especially in connection with the fact that nearly 1.4 million EVs as of July 2022 are said to operate in India if the data shared by the ministry of road transport and highways is relied upon. More than half of this volume is claimed to consist of electric three-wheelers followed by two-wheelers and passenger cars. 

The PLI scheme and other policy changes in terms of manufacture and sale of electric vehicles, it is clear that a strong battery ELV and disposal policy has to be in place. From the cost to the environment point of view, a policy extension in terms of the manufacture of such batteries locally down to the fuel cell level should also taking into view the ability of the battery to perform efficiently through out its lifecycle, thus staying alive for longer and when it does die, it should be recyclable to a great extent. 

Dr Akshay Singhal, Founder and CEO of Log9 Materials, averred. “The newly introduced Battery Waste Management standards by the Government under the Extended Producer Responsibility (EPR) concept addresses two important concerns. An efficient and effective waste management of all Li-Ion batteries that are nearing the end of their useful life and are expected to end up in landfills in a few years, avoiding any residual pollution impact. Second is the emphasis on investing in and nurturing the recycling of such used batteries, reducing the reliance on fresh resource mining.” 

Shubham Vishvakarma, CEO and Chief of Process Engineering of Metastable Materials, said, “The Battery Waste Management Rules announced by the Government of India is an excellent and much-needed step towards bringing to the fore innovations and myriad growth opportunities for the battery waste management and battery treatment space in our country, especially at a time when the ongoing EV boom in India is leading us to increasing concerns on e-waste.” “Under the new Rules notified, the Government has mandated a minimum percentage of recovery of various materials from end-of-life batteries, which is bound to enable the growth of novel business models such as urban mining in order to reduce India’s foreign dependency on procuring raw materials for EV batteries and other types of batteries,” he added. 

Ashok Sudrik, Chief Scientist, Infinite Orbit Research and Development Pvt Ltd, commented, “The Battery Waste Management Rules, 2022, were much needed and we are happy that government has started taking cognizance of the hazardous waste being created and the recycling or waste collection. Other than waste management recycling rules, there is a need for manufacturers to incorporate extension of battery life technologies, keep the lithium content minimal and develop innovative cell chemistry. The life of a battery should be 4000 to 6000 cycles, which means a life spane of about 10 to 15 years. BaaS (Battery as a Service) concept with swappable batteries will be a big contributor to the ultimate goal of keeping cost to the environment low.”

In other parts of the world

In Canada, Li-Cycle will begin constructing a USD 175 million plant in Rochester, N.Y., for recycling of lithium-ion batteries. On the grounds of what used to be the Eastman Kodak complex, the plant will be the largest of its kind in North America with an eventual capacity of 25 metric kilotons of input material and a capability to recover 95 percent or more of cobalt, nickel, lithium and other valuable elements through zero-wastewater, zero-emissions process. Ajay Kochhar, Co-founder and CEO, Li-Cycle, said, “We'll be one of the largest domestic sources of nickel and lithium, as well as the only source of cobalt in the United States."  

In May 2022, Hydrovolt, the largest battery recycling plant in Europe started operations in Fredrikstad, Norway. A joint venture between two Norwegian companies – Hydro and Northvolt, the plant has the capacity to process 12,000 tonnes of battery packs per year, enough for the entire end-of-life battery market in Norway currently. Claimed to have the capability to recover 95 percent of the materials used in an EV battery including plastics, copper, aluminum and ‘black mass’, a powder containing various elements inside lithium-ion batteries like nickel, manganese, cobalt and lithium. 

Not just in Europe or US, the rise of Electric Vehicles (EVs) and associated battery gigafactories is pushing forward the creation of a battery recycling value chain. It is a matter of debate whether it got to be a close-loop or an open-loop design in terms of sourcing of batteries to recycle and to put the resulting material to good use so that the cost to the environment is kept minimal. As the demand for use of ‘green’ electricity source gathers pace the world over, on the other end of the spectrum, which involved the end-of-life vehicle for EVs, the demand for recycling in increasing partly due to regulations – the EU regulations have just intensified – and partly by a demand for re-use of materials due to geo-political reasons as well. A strong desire to localise supply chains and safeguard critical raw materials are also the driving factors.  

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Bengaluru-based electric vehicle maker Ola Electric is set to host its annual event ‘Sankalp’ on 15 August, at its Gigafactory in Krishnagiri, Tamil Nadu.

At the event, the company shared that it will unveil its ‘India Inside’ vision across products and technologies. This year, Ola Electric has made its event public inside the Gigafactory, which will be live-streamed on its official channels with more details to be announced soon.

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Pune-headquartered automotive major Force Motors has unveiled Force iPulse, its new connected vehicle platform designed to enhance operational intelligence and vehicle lifecycle management.

Developed in partnership with Intangles, the platform uses state-of-the-art artificial intelligence (AI) and hybrid analytics to provide insight into vehicle performance. It continuously analyses high-resolution data to predict issues, enabling the early detection of performance problems and component failures.

Unlike traditional monitoring systems, Force iPulse goes beyond simply reporting faults. It performs root-cause analysis on key subsystems, including the engine, powertrain and electrical and thermal systems, allowing for proactive intervention to prevent unplanned downtime. This enables fleet operators to make precise, data-backed decisions.

Prasan Firodia, Managing Director, Force Motors, said, “At Force Motors, we believe in value-driven innovation, and this launch is yet another step in our mission to deliver superior, intelligent mobility solutions. Force iPulse is more than just a technological solution—it is a business enabler for our customers. It brings in transparency, improves efficiency, and ensures safety across operations, thereby equipping our customers with complete control over their fleet operations. We are confident that this new initiative will be well appreciated by both our customers as well as our partners and help take us another step forward in delivering our promise of customer delight.”

The platform, built on a secure cloud-native architecture, provides access to real-time and historical vehicle data on both mobile and desktop devices. It offers a unified view of operations, helping fleet managers detect inefficiencies, enforce best practices and optimise the total cost of ownership.

Furthermore, to support the new technology, Force Motors has established an Intelligence Command Centre at its headquarters in Pune. Manned by diagnostics experts, the centre provides remote vehicle monitoring, alert management and expert guidance. This is backed by a 24x7 support infrastructure.

Force iPulse is now available across Force Motors’ network of more than 300 dealerships. It will be a standard feature on all new commercial vehicles and can also be fitted as a certified aftermarket solution.

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California-based e-mobility company Faraday Future Intelligent Electric has commenced the trial production phase of its new FX Super One electric MPV at its Hanford facility.

The phase will focus on validating production processes, workflows and quality standards. Factory engineers and staff are also undergoing training to prepare for full-scale production. The next stage will involve engineering validation, including safety testing.

Unveiled in Los Angeles on 17 July, the FX Super One features Faraday Future’s Super EAI F.A.C.E. interface and its 6x4 Embodied AI Agent architecture. The model is positioned as a premium alternative to traditional large SUVs like the Cadillac Escalade.

The company has invested around USD 300 million in its 1.1 million-square-foot Hanford facility, which could be scaled up to produce over 30,000 vehicles per year with further funding and permits. The plant may also support multi-model assembly lines.

Faraday Future recently secured USD 105 million in new funding, expected to cover most of the FX Super One’s launch costs.

Founded in 2014, the company aims to disrupt the automotive industry by creating a user-centric, technology-first and smart driving experience.

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German tier 1 supplier Schaeffler has developed a hands-free access sensor that allows users to open and close vehicle trunks or sliding doors with a foot motion, without needing to press a button or use a remote. Based on Doppler radar technology, the system enables keyless and contactless vehicle access.

According to Matthias Zink, CEO Powertrain & Chassis, Schaeffler AG, “With the expanded portfolio of the Powertrain & Chassis Division, Schaeffler is positioning itself as a new provider of innovative sensor solutions for body applications. The hands-free access sensor is an example of Schaeffler’s growing, complementary product range following the merger with Vitesco Technologies – and marks another step toward our goal of becoming the world’s leading Motion Technology Company.”

The sensor activates when a person enters the radar field beneath the rear of the vehicle. It detects foot movements and analyses both speed and direction within a 60-centimetre range. Artificial intelligence is used in the calibration process, adapting the system to different vehicle models to improve detection accuracy and reduce false triggers.

Production of the sensor began in Europe at the end of 2024 for major automotive manufacturers.

Leif Reinhold, Head of the Powertrain Solutions Business Division at Schaeffler, responsible for the company’s sensor portfolio, said. “Schaeffler’s hands-free access sensor is a key component in the vehicle for intuitive access and also highlights our expanded sensor expertise in the market. We have been producing the hands-free access sensor in volume since the end of 2024 – in Europe, for major European automotive manufacturers. We also see additional growth potential in North America and China.”

Operating at a 24 GHz frequency, the sensor maintains performance in various weather conditions and temperatures ranging from –40 to 105 degrees Celsius. It connects to vehicle systems via a LIN interface and is suitable for various body styles including SUVs, minivans and sedans.

The sensor can be mounted either on the bumper or the chassis and is compatible with vehicles fitted with or without a trailer hitch. Installation involves a single screw-in component, removing the need for extra clips, brackets or antenna runs.

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