| E-mobility, the burgeoning industry in India, has experienced a remarkable surge in recent years, rendering it a highly promising field with an array of potential prospects for businesses and individuals alike.
Anmol Bohre,
Co – Founder and Managing Director,
Enigma EV
The potential of electric vehicles to emit significantly fewer pollutants than ICE vehicles can help reduce greenhouse gas emissions that contribute to climate change. Lower emission rates can subsequently improve the air quality index as well as promote public health.
Notably, the industry has enormous economic potential, including the creation of employment opportunities and augmenting investment prospects. Projections put forth in the IVCA-EY-Induslaw report indicate that the electric vehicle (EV) industry is poised to spark an exponential increase in the number of jobs available, with 10 million direct jobs and 50 million indirect jobs expected to be created by 2030.
India is currently witnessing the emergence of a formidable EV financing market, with estimations by Niti Aayog suggesting that it will amass a substantial worth of US$50 billion by 2030.
The Indian Government’s push towards electric mobility
The Indian government has been diligently pursuing the promotion of electric mobility in the country through a multi-pronged approach, with a primary focus on its FAME-I initiative. The policy framework of FAME-I provided a comprehensive range of incentives to both electric vehicle buyers and manufacturers, thereby, expediting the widespread adoption of EVs throughout the nation.
Along with other initiatives such as the National Electric Mobility Mission Plan (NEMMP) and the Faster Adoption and Manufacturing of (Hybrid &) Electric Vehicles in India (FAME-II) scheme, these incentives have played a pivotal role in accelerating the proliferation of e-mobility in the country. It is noteworthy that these policy measures underscore the government’s unwavering commitment towards promoting sustainable transportation and diminishing the country’s reliance on fossil fuels.
Rising awareness among consumers
The escalating awareness regarding the manifold advantages of electric vehicles, including their lower operating and maintenance costs and zero-emission capabilities, is playing a pivotal role in driving the uptake of EVs. As more and more individuals comprehend the numerous benefits associated with electric vehicles, the demand for this sustainable mode of transportation is expected to witness a marked upswing.
The heightened interest in EVs is also indicative of a growing awareness of the ecological impacts of traditional fossil-fueled transportation and the need to transition towards more sustainable transportation modes. In essence, the trend towards heightened awareness and adoption rates signals a paradigm shift in the automotive industry towards sustainable and cleaner transportation, ushering in a new era of mobility.
Technology innovations in e-mobility
The e-mobility industry has emerged as a dynamic hotbed of technological advancements in recent times, with noteworthy progress in battery technology, electric drivetrains, and charging infrastructure. These innovative developments have played a pivotal role in enhancing the efficiency, range, and overall performance of electric vehicles, thus rendering them increasingly appealing to both consumers and businesses. Moreover, the advent of intelligent charging solutions and vehicle-to-grid (V2G) technology holds the potential to revolutionise the way we manage energy and ensure grid stability, ushering in a more sustainable and interconnected energy ecosystem.
With technology continuing to advance at an unprecedented pace, industry players anticipate further game-changing breakthroughs in areas such as lightweight materials, autonomous driving, and artificial intelligence, further propelling e-mobility towards new horizons and cementing its status as a crucial player in the future of transportation.
Challenges in the e-mobility industry
The growing e-mobility industry is not without its share of challenges. In the Indian context, the deployment of the electric vehicle (EV) ecosystem is still in its infancy, with less than 1% of the total vehicle population being EVs. The lack of adequate charging infrastructure poses a primary challenge for the e-mobility industry. Despite the government’s efforts to promote the installation of EV charging stations, the current network remains insufficient, particularly in non-metro areas. This has led to the fear of range anxiety among potential EV buyers, impeding their shift towards electric mobility.
Another critical challenge facing the e-mobility industry is the high upfront cost of EVs. While EVs offer cost-effectiveness in the long run, the initial purchase price is still relatively steep, deterring price-sensitive consumers from considering them as viable options. Furthermore, the sector faces regulatory hurdles, such as the absence of a clear policy framework and inadequate incentives, that hinder its growth prospects. Additionally, the lack of skilled manpower and the need for upskilling and retraining of existing personnel pose significant challenges to the sector’s progress.
Moreover, India needs to augment its battery recycling capabilities. Although the government updated its e-waste management policies in 2018, the rules do not encompass lithium batteries, which predominantly constitute Li-ion batteries. The policy’s recycling guidelines apply only to lead-acid batteries. The enforcement of these rules is challenging due to low e-waste generation rates and informal reclamation. It is pertinent to note that nearly 95% of valuable materials in Li-ion batteries, which primarily comprise lithium, cobalt, nickel, bauxite, manganese, aluminium, and natural graphite, can be recovered. Nevertheless, global studies suggest that 95% of Li-ion batteries today end up in landfills, and only 5% are recycled and reused.
Research and Development
As the e-mobility industry expands, the need for continued research and development becomes increasingly crucial to overcome current limitations and optimise performance. Advancements in battery technology, charging infrastructure, and motor efficiency are vital for improving the range, speed, and overall performance of electric vehicles. In addition, rigorous research is crucial for ensuring the safety and reliability of EVs, addressing concerns related to battery fires and structural integrity. Governments and private entities must pool their resources to fund research and development, fostering collaboration between industry players and research institutions. The integration of nascent technologies such as artificial intelligence and the Internet of Things could further augment the capabilities of e-mobility. Furthermore, research is needed to comprehensively evaluate the environmental impact of e-mobility, encompassing its entire lifecycle from raw material extraction to end-of-life disposal.
Readiness to switch over to EVs
The ascendant demand for e-mobility is attributable to its ability to augment and integrate with other technologies, potentially generating new customer relationships and service opportunities. The mainstream adoption of electric vehicles (EVs) could potentially revolutionise commutes in India. Therefore, it is imperative to prioritise last-mile connectivity and public transportation to facilitate the integration of EVs into the mainstream.
Additionally, authorities should contemplate reducing import and export duties on EVs and charging infrastructure. Relaxing the FAME II policy’s requirements and providing offsetting incentives for non-EV vehicles could prove advantageous in decreasing prices for consumers. This would enable the entry of necessary equipment from outside India into the market.
Future outlook of e-mobility
The future outlook for e-mobility is bright and promising, with an increasing number of countries including India embracing this sustainable transportation alternative. The complete transition to e-mobility will lead to a paradigm shift in the Indian automotive industry, necessitating innovative business models and technological advancements. EVs will become more affordable and accessible, and as battery technology improves, range anxiety will become a thing of the past. Governments will continue to incentivise the adoption of e-mobility, promoting the establishment of charging infrastructure and investing in research and development to improve battery performance.
The integration of renewable energy sources, such as solar and wind, with EV charging infrastructure, will further enhance the sustainability aspect of e-mobility. The emergence of autonomous and connected vehicles will revolutionise the way we commute, making transportation safer, more efficient, and cost-effective. Collectively, the future of e-mobility is poised to bring about substantial changes in the transportation landscape, ensuring a greener and more sustainable future for generations to come.