ELECTRIC VEHICLES

Related Articles

India-Korea Electronic Origin Data Exchange System (EODES)

December 10, 2023

Biosphere Reserve

November 3, 2023

Cheetahs in India

September 29, 2023

• Recently, a study conducted by Indian Institute of Science Education and Research revealed that India can slash emissions of Volatile Organic Molecules (VOC) by 76% in the next eight years by swapping all two- and three-wheelers with electric vehicles and all diesel-fuelled ones with Compressed Natural Gas (CNG).
• Gases escaping out of a vehicle’s exhaust account for 65-80% of an automobile’s emissions.
• India is home to 14 out of the top 20 most polluted cities globally. Around 1.67 million deaths were linked to air pollution in 2019. The country lost 1.36% of its gross domestic product the same year.
• Therefore, adopting electric vehicles can help India achieve a cleaner future.
• VOCs are carbon-containing chemicals released by petrol and diesel vehicles. They impact air quality and human health.
• However, VOCs can have a natural origin, too.
• Plants emit these chemicals to attract pollinators, defend themselves from pests and predators and adapt to environmental stress.
• Effect of VOCs on Health: VOCs can irritate the eyes, nose and throat, damage body organs and cause cancer.
• Long-term exposure to VOCs is not good because the majority of the VOCs are carcinogenic (cancer-causing).
• It is also linked to medical conditions such as asthma and heart disease.
• Black carbon is linked to health problems such as respiratory and cardiovascular disease, cancer and congenital disabilities. It also contributes to climate change.
• Positive Feedback Loop: VOCs can drive the formation of other dangerous pollutants.
• For instance, they react with sunlight and nitrogen dioxide to form ground-level ozone.
• VOCs also trigger the formation of Particulate Matter (PM2.5) a pollutant that reaches deep into the lungs, affecting their normal functioning.
• They react in the air to produce secondary organic aerosols, minute particles suspended in the air.
• Issues Related to VOCs: Human-made VOCs are a cause for concern, yet they don’t draw enough attention.
• Benzene, a chemical that induces cancer, is the only VOC included in the National ambient air-quality standards.
• The other pollutants under ambient air-quality standards considered are PM10, PM2.5, nitrogen dioxide, sulphur dioxide, carbon monoxide, ozone, ammonia, lead, nickel and benzo(a)pyrene.
• An EV operates on an electric motor instead of an internal combustion engine and has a battery instead of a fuel tank.
• In general, EVs have low running costs as they have fewer moving parts and are also environmentally friendly.
• In India, the fuel cost for an EV is approximately 80 paisa per kilometre. Contrast this with the cost of petrol which is today more than Rs 100 per litre in Indian cities, or Rs 7-8 per kilometre to operate a petrol-based vehicle.

Challenges

• EV production is a capital intensive sector requiring long term planning to break even and profit realisation, uncertainty in government policies related to EV production discourages investment in the industry.
• India is technologically deficient in the production of electronics that form the backbone of the EV industry, such as batteries, semiconductors, controllers, etc.
• India does not have any known reserves of lithium and cobalt which are required for battery production.
• The lack of clarity over AC versus DC charging stations, grid stability and range anxiety (fear that batteries will soon run out of power) are other factors that hinder the growth of the EV industry.
• EVs have higher servicing costs and higher levels of skills is needed for servicing. India lacks dedicated training courses for such skill development.
• Government has set a target of EV making up 30% of new sales of cars and two-wheelers by 2030.
• To build a sustainable EV ecosystem, initiatives like National Electric Mobility Mission Plan (NEMMP) and Faster Adoption and Manufacturing of (Hybrid &) Electric Vehicles in India (FAME India) have been launched.
• NEMMP was launched in 2013 with an aim to achieve national fuel security by promoting hybrid and EVs in the country. There is an ambitious target to achieve 6-7 million sales of hybrid and EVs year on year from 2020 onwards.
• FAME India was launched in 2015 with the objective to support hybrid/EV market development and manufacturing ecosystem. The scheme has 4 focus areas viz. technology development, demand creation, pilot projects and charging infrastructure.
• Organisations like Bureau of Indian Standards (BIS), Department of Heavy Industry, Automotive Research Association of India are devising design and manufacturing standards of EVs, Electric Vehicle Supply Equipment (EVSEs) and charging infrastructure to smoothen the advent of in-house production of EVs.
• Thus, a shift in the electricity generation landscape as a whole is what is required to facilitate the growth of electric cars.
• In this context, India is on track to become one of the largest solar and energy storage markets by 2025.
• A combination of solar-powered grid solutions that are organised with a general improvement in grid resilience will ensure adequate charging infrastructure for EV’s being a green option.
• Subsidising manufacturing for an electric supplychain will certainly improve EV development in India.
• Along with charging infrastructure, the establishment of a robust supply chain will also be needed.
• Further, recycling stations for batteries will need to recover the metals from batteries used in electrification to create the closed-loop required for the shift to electric cars to be an environmentally-sound decision.

SOURCE: THE HINDU,THE ECONOMIC TIMES,MINT