The adoption of electric vehicles is rapidly growing worldwide. How do electric vehicles contribute to reducing carbon emissions and what are the key benefits they offer compared to traditional combustion engine vehicles?
The adoption of electric vehicles is rapidly growing worldwide. How do electric vehicles contribute to reducing carbon emissions and what are the key benefits they offer compared to traditional combustion engine vehicles?
Electric Vehicles (EVs) are vehicles propelled by electric motors powered through batteries or fuel cells. With the transport sector contributing ~23% of global energy-related CO₂ emissions (IEA, 2023), EV adoption is a crucial mitigation strategy under the Paris Agreement (2015) and India’s net zero by 2070 goal.
Contribution of EVs to Reducing Carbon Emissions
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Zero Tailpipe Emissions: EVs produce no exhaust gases during operation, eliminating CO₂, NOx, and PM2.5 emissions at the point of use.
Example: A Tata Nexon EV produces 0g CO₂/km vs. ~120g for a petrol SUV.
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Higher Energy Efficiency: Electric drivetrains convert ~85–90% of input energy into motion compared to ~30–35% for internal combustion engines (ICEs).
- Impact: Lower total energy demand reduces upstream fossil fuel combustion.
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Integration with Renewable Energy: EV charging from solar/wind grids can result in near-zero lifecycle emissions.
Example: Delhi’s EV Policy promotes charging stations linked to solar rooftops.
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Reduction in Fossil Fuel Dependence: Less demand for petrol/diesel lowers oil extraction, refining, and transport emissions.
Example: NITI Aayog projects EV adoption can cut oil imports by $60 billion by 2030.
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Regenerative Braking: Captures kinetic energy during braking, reducing energy waste and lowering total emissions.
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Potential for Grid Decarbonisation Synergy: As national power grids decarbonise, lifecycle emissions of EVs will reduce further over time.
Key Benefits of EVs Over Traditional ICE Vehicles
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Environmental Benefits
Example: Norway, with >80% EV sales, reports ~35% drop in urban NO₂ levels in Oslo.
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Lower Operating Costs: Electricity per km is cheaper than petrol/diesel; fewer moving parts reduce maintenance.
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Energy Security: Reduced dependence on crude oil imports improves trade balance and strategic resilience.
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Better Performance & Noise Reduction: Instant torque delivery and quiet operation improve driving experience and urban soundscapes.
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Job Creation in New Sectors: Battery manufacturing, charging infrastructure, recycling industries expand green employment.
Example: India’s PLI Scheme for Advanced Chemistry Cells aims to create ~60,000 jobs.
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Support for Climate Commitments: Helps countries meet NDC targets and air quality mandates under SDG 11 & 13.
EVs represent a technological and environmental leap over combustion engine vehicles by reducing operational emissions, improving energy efficiency, and enabling integration with renewables. However, to maximise their benefits, parallel efforts in grid decarbonisation, battery recycling, and charging infrastructure are critical.
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