The EV Revolution

EV is constantly evolving
Today, electric vehicles (EVs) continue to evolve, with advancements in battery technology, charging
infrastructure, and autonomous driving systems. The push for electric mobility is driven by the goal of achieving
sustainable transportation and reducing dependence on fossil fuels. The term “EV revolution” captures the
profound changes that electric vehicles (EVs) are bringing to the automotive industry and society at large. It
signifies a fundamental shift away from traditional internal combustion engine vehicles towards electric
propulsion. Sustainable transportation aims to meet current needs without compromising future generations. It
refers to low- and zero-emission, energy-efficient, affordable modes of transport, including electric and
alternative-fuel vehicles, as well as domestic fuels. Reducing dependence on fossil fuels is essential for climate
change and sustainable development.
We need to find better ways to use energy system that doesn’t hurt the environment. To do this, we
need new technology advancements, supportive policies, public awareness, and collaboration among
governments, industries, and individuals. EVs generate considerably lower emissions over their lifetime than
vehicles running on fossil fuels, irrespective of the source that generates the electricity. ICE vehicles ignite and
combust fuel within an internal combustion engine (ICE). EVs are powered by electricity from a rechargeable
battery instead. To fully leverage their environmental advantages, it is essential to adopt a comprehensive
approach that encompasses clean energy production, sustainable materials, streamlined manufacturing
processes, and the establishment of supportive infrastructure.

Lithium-ion batteries power EVs
William Morrison, from Des Moines, Iowa, creates the first successful electric vehicle in the U.S. His car is little
more than an electrified wagon, but it sparks an interest in electric vehicles. 1896 advertisement shows how
many early electric vehicles were not much different than carriages. The basic process for converting a car to
electric power involves removing the combustion engine, along with the gearbox, exhaust, and various other
components. These are then replaced with batteries and one or more electric motors. Lithium plays a vital role
in the composition of EV batteries. Lithium-ion batteries, which are utilized in the majority of EVs, rely on five
essential minerals: lithium, nickel, cobalt, manganese, and graphite. However, the extraction and processing of
these minerals can have significant environmental and social consequences. The manufacturing of lithium-ion
batteries generates toxic waste alongside other forms of waste. Although there are attempts to reduce and
handle waste responsibly, it is possible for toxic waste to be produced during the battery manufacturing
process. Proper disposal of used batteries is vital to reduce environmental and health risks from hazardous
waste in EVs. Strategies to maximize EV’s environmental benefits can be implemented.

Rapid growth of EV market
The global EV market has experienced impressive growth, reflecting a substantial transition to sustainable
transportation. Industry reports and projections indicate that this growth trend will persist in the future. Proper
disposal of used batteries is vital to reduce environmental and health risks from hazardous waste in EVs.
Strategies to maximize EV’s environmental benefits can be implemented. Global electric vehicle sales surged
despite the COVID-19 pandemic, exceeding three million units in 2020, as reported by the International Energy
Agency (IEA). IEA’s Global Electric Vehicle Outlook reports over 10 million electric car sales in 2022, with an
estimated 35 per cent growth to 14 million in 2023 worldwide. Global governments have implemented policies
like financial incentives, subsidies, tax exemptions, and stricter emissions regulations to promote electric
vehicle adoption, driving sales and innovation. Battery technology advancements, such as increased energy
density, cost reduction, and improved performance, have propelled EV market growth by enhancing driving
range, reducing charging times, and increasing competitiveness with traditional vehicles. The expansion of the
EV market includes various vehicle segments like buses, trucks, and two-wheelers, driven by emission
reduction, air quality improvement, and cost reduction goals. To drive electric vehicle (EV) adoption,
investments in charging infrastructure expansion are being made by governments and private companies. This
addresses range anxiety and enhance convenience in urban areas and on highways. Major automakers are
committing to EVs, phasing out internal combustion engines and investing in development. Global
collaborations and initiatives like EVI and EV30@30 are accelerating EV adoption and promoting charging
infrastructure development.

Global EV manufacturing
Market growth and adoption of electric vehicles vary by region and country due to factors like regulations,
infrastructure, consumer preferences, and economic conditions.
China holds the title of the largest global electric vehicle (EV) market, leading in sales and adoption. This
achievement is attributed to the Chinese government’s implementation of ambitious policies and incentives to
drive EV adoption. China has made notable progress in producing and promoting affordable electric vehicles
(EVs). Discounts of up to 60,000 yuan were previously offered to EV buyers but ended in 2022. New-energy
vehicles have been exempt from the 10 per cent purchase levy since 2014, extended until the end of 2023.
Chinese automakers like BYD, Great Wall Motors, Chery Automobile, Geely, and NIO offer various affordable
and premium EV models. Furthermore, Tata Motors, a prominent Indian automaker, offers electric vehicles like
the Nexon EV and Tigor EV. Mahindra Electric, a subsidiary of Mahindra & Mahindra, also produces EVs in
India. Hero Electric specializes in electric two-wheelers, while Bajaj Auto has entered the EV market with the
Chetak Electric scooter. Ather Energy is an Indian startup known for advanced electric scooters like the Ather
450X. Japan has been a significant player in the manufacturing and development of electric vehicles (EVs).
Japanese automakers have made notable contributions to the EV industry and have been actively involved in
the production of electric vehicles. Japan aims to make more than two million EVs a year by 2030. In Japan,
where EV demand is picking up gradually, an EV based on the tiny N-ONE model goes on sale in 2025. Two
more EV models are planned for the following year.
Asian nations, including South Korea, China, Japan, and others, have actively participated in electric
vehicle (EV) manufacturing. Companies like Hyundai, Kia, BYD, and NIO have made significant contributions to
the EV industry. These nations have invested in EV production, battery technology, and infrastructure, shaping
the global EV market.
Whereas, the United States is an active participant in electric vehicle (EV) manufacturing. Tesla, along with
traditional automakers like GM and Ford, plays a significant role. Startups such as Rivian and Lucid Motors
also contribute to innovation. Battery manufacturing and government support, including incentives and
infrastructure development, further bolster the US EV industry. in addition, Norway offers lucrative EV
incentives, including tax exemptions. The country will end the sales of internal combustion engine cars in 2025.
Norway’s experience suggests that electric vehicles bring benefits without the dire consequences predicted by
some critics. Popular and affordable EV models include the Nissan Leaf, Renault Zoe, Hyundai Ioniq Electric,
Chevrolet Bolt EV, and Tesla Model 3 (Standard Range). These are just a few examples, and the global EV
market is continually evolving with new models being introduced regularly. While the EV market has been
growing globally, its penetration in individual countries can vary significantly.

EV adoption in Myanmar
EV adoption in Myanmar is influenced by infrastructure, government policies, market demand, and economic
conditions.
To promote the development of EVs and related industries in Myanmar, companies interested in importing EVs
engaged with the Steering Committee on National-level Development of Electric Vehicles and Related
Industries. Upon receiving approval from the committee, the importation of EVs took place. The construction of
electric vehicle (EV) charging stations in Myanmar has already commenced. Pilot projects for EV charging
stations are underway in Yangon and Nay Pyi Taw. Local news sources report that models of EV charging
stations have been sent to the Ministry of Electrical Power in Nay Pyi Taw. The committee has approved the
importation and utilization of electric vehicles in Myanmar as a pilot project, commencing from 1 January to 31
December of this year. This initiative aims to promote the widespread use of electric vehicles locally.

Challenges to the EV Revolution
The lack of charging infrastructure and high capital expenditure costs are hindering the EV revolution, but
stakeholders are taking action to overcome these challenges. Expanding charging networks, improving battery
technology, and educating consumers is crucial. Addressing upfront costs and ensuring a sustainable supply
chain is important for wider adoption.
Grid management and consumer awareness also need attention. Collaboration between governments,
industry, and consumers is key for a successful transition to electric mobility. Continued investment and
support are vital for a sustainable EV revolution. Everyone faces challenges in life. It’s a matter of how you
learn to overcome them and use them to your advantage.

Source: The Global New Light of Myanmar

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