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24Earth climate tool

EV vs. Gasoline Car Emissions Calculator

Compare the full climate footprint of an electric car and a gasoline car—manufacturing, battery, and every kilometre driven on your country’s electricity.

Instant result Runs in your browser ICCT & Ember data

Where and how do you drive?

Pick your country and yearly distance. Switch to advanced mode to change every lifecycle assumption.

Lifecycle assumptions

Private by design. Your inputs are calculated locally and are not saved.

Over 15 years (180,000 km), the EV’s lifecycle emissions are

16.4 t COâ‚‚e lower (36.9%)

Carbon break-even distance

32,911 km ≈ 2.74 years of driving

The distance after which the EV’s extra manufacturing emissions are repaid by its cleaner driving.

Emissions breakdown

Grid used: World average · 473 g CO₂/kWh

Annual operational emissions

Gasoline car2.48 tCOâ‚‚e per year
Electric car1.15 tCOâ‚‚e per year

Fuel well-to-wheel for gasoline; grid electricity for the EV, including charging losses.

Manufacturing emissions

Gasoline car7.2 tCOâ‚‚e, once
Electric car10.9 tCO₂e, once — battery: 4.37 t

Production and end-of-life recycling, including the traction battery for the EV.

Lifecycle emissions

Gasoline car44.5 t247 g COâ‚‚e/km
Electric car28.1 t156 g COâ‚‚e/km

Manufacturing plus driving over the selected vehicle lifetime.

Total emissions after 5, 10, and 15 years

Cumulative totals including manufacturing, at your annual mileage.

Cumulative emissions of the gasoline car and electric car after 5, 10, and 15 years
After Gasoline car Electric car EV saving
5 years19.6 t16.6 t3.02 t
10 years32 t22.3 t9.71 t
15 years44.5 t28.1 t16.4 t

The EV starts behind, then wins on the road

Building an electric car—especially its battery—emits more than building a gasoline car. But every kilometre driven usually emits far less, so the EV repays its carbon debt after a break-even distance and keeps saving from then on. How fast depends mostly on your electricity.

  • Grid matters mostOn Norway’s hydro grid the break-even arrives roughly twice as fast as on the world average; on coal-heavy grids it takes far longer.
  • Grids get cleanerThis tool holds today’s grid intensity constant, which overestimates EV emissions—real grids decarbonize during the car’s life.
  • Batteries lastModern batteries are expected to outlast the car itself, so no battery replacement is modelled.
  • Smaller is cleanerA smaller battery, an efficient car, and fewer kilometres all shrink both footprints—the cleanest kilometre is the one not driven.

Assumptions and sources

24Earth factor set 2026.1
View default assumptions
Default assumptions used by the calculator
ParameterDefaultBasis
Gasoline fuel economy6.9 L/100 kmReal-world compact gasoline car, ICCT 2025
EV efficiency20.2 kWh/100 kmReal-world, including charging losses, ICCT 2025
Gasoline emissions3.00 kg CO₂e/LWell-to-wheel fossil gasoline: 93.3 g CO₂e/MJ (EU FQD/JEC) × 32.2 MJ/L
Gasoline car manufacturing7.2 t COâ‚‚eProduction and recycling, Hill et al. 2020 via ICCT
EV manufacturing (excl. battery)6.5 t COâ‚‚eProduction and recycling, Hill et al. 2020 via ICCT
Battery production72.8 kg CO₂e/kWh × 60 kWhR&D GREET 2024, EU production mix, via ICCT 2025
Electricity intensityPer country, 28–699 g CO₂/kWhGeneration-based, 2024: Ember 2025; EPA eGRID (US); DEFRA (UK)
Usage12,000 km/year, 15-year lifetimeEditable; ICCT assumes 12,000 km/year over 20 years

Electricity: Country values are generation-based CO₂ intensities for 2024 and exclude upstream fuel-chain emissions and grid losses. Full life-cycle intensities are typically 10–20% higher—advanced mode accepts any value, including your own supplier’s figure or zero for verified renewable charging.

Scope: Maintenance, road infrastructure, and end-of-life battery second-life credits are excluded for both cars. Grid decarbonization over the vehicle’s life is not modelled, which favours the gasoline car.

This is a communication and education tool, not a formal life-cycle assessment. Real emissions vary with the specific vehicle, driving style, climate, charging pattern, electricity supplier, and how the grid evolves. Defaults describe compact cars; results scale differently for SUVs and larger batteries. ICCT’s full analysis, which models grid decarbonization over the vehicle lifetime, finds EVs in Europe emit roughly 73% less than gasoline cars over their life.