Average carbon footprint in Sweden

Sweden emits about 3.6 tCO2e per person per year (territorial emissions). That places it around #42 globally, which is considered typical on a per-person basis.

This is about 24% below the global median of ~4.7 tCO2e per person. Within Europe, Sweden ranks around #23 and sits about 32% below the regional median of ~5.3.

Population is roughly 10.6 million (2024).

GDP per capita is approximately $57,117 (2024).

Urban population is around 89% (2024).

Electricity renewables share is roughly ~71% of electricity.

Grid carbon intensity is roughly ~35 gCO2/kWh.

Per-capita emissions divide a country's total CO₂ output by its population. That lets us compare nations fairly regardless of size. A large country with high total emissions can still have low per-person emissions if its population is very large.

Globally, the main sectors driving emissions are electricity and heat, transport, industry, buildings, and food. The mix varies by country: colder climates often use more heating; car-dependent societies have higher transport emissions; industrial economies tend to show more industry-related CO₂.

For Sweden, with typical per-capita emissions, there is room to improve. Many countries at similar levels have cut emissions while maintaining or growing their economies through electrification, renewables, and efficiency gains.

With GDP per capita around $57,117 (2024), Sweden is a high-income economy. Higher incomes often correlate with greater energy use, car ownership, and consumption-based emissions. Policy, energy mix, and urban planning can significantly change that relationship.

Around 89% of the population lives in urban areas (2024). Urbanization can affect transport patterns, building density, and heating and cooling demand. Denser cities often support public transit and district heating; sprawl tends to increase car dependency and per-capita emissions.

The electricity grid is relatively low-carbon. Electrifying transport and heating can reduce emissions effectively, especially as renewable share grows.

Territorial emissions count CO₂ produced within national borders. Consumption-based emissions attribute CO₂ to where goods are consumed. Both perspectives matter for understanding the full carbon footprint.

Territorial emissions count CO₂ produced within a country's borders. Consumption-based emissions attribute CO₂ to the country where goods and services are consumed, including imports. Sweden's per-capita figure above is territorial (~3.6 tCO2e/person/year). Consumption-based data for Sweden is around ~5.8 tCO2e/person/year, indicating imported carbon footprint. Both perspectives matter for understanding the full impact.

Targeted actions depend on the country's starting point. For Sweden, with typical per-capita emissions, potential levers include:

• Increasing renewable share in electricity generation
• Cutting down on air travel and long-haul freight
• Improving building insulation and energy efficiency
• Shifting diets toward less carbon-intensive foods
• Retrofitting older buildings with heat pumps
• Reducing food waste along the supply chain
• Improving industrial process efficiency
• Reducing car use and choosing electric vehicles
• Switching to renewable electricity and heat pumps for heating

• World Bank: SP.POP.TOTL (2024)
• World Bank: NY.GDP.PCAP.CD (2024)
• World Bank: SP.URB.TOTL.IN.ZS (2024)
• CO₂ per capita, emissions: OWID (2025)
• Electricity intensity & renewables: OWID (2025)