Air quality control

Absolute particulate emissions as of Dec 31 / t

2023

2022

2021

Passenger transport

444

303

330

Freight transport

3,266

3,430

4,965

Other transport

10

4

4

Stationary facilities

142

125

Total

3,862

3,862

5,299

Combustion-related, well-to-wheel (WTW), scope 1 –3. Includes DB Arriva. Excluding USA Truck. In 2021, rail freight transport from/to China by DB Cargo and DB Schenker may have included double accounting, and so these values may be slightly higher.

Absolute nitrogen oxide (NOX) emissions as of Dec 31 / t

2023

2022

2021

Passenger transport

13,850

12,116

13,609

Freight transport

71,238

79,371

91,280

Other transport

172

173

190

Stationary facilities

1,113

1,040

Total

86,374

92,700

105,079

Individual figures are rounded and therefore may not add up.
Combustion-related, well-to-wheel (WTW), scope 1 –3. Includes DB Arriva. Excluding USA Truck. In 2021, rail freight transport from/to China by DB Cargo and DB Schenker may have included double accounting, and so these values may be slightly higher.

Sulfur dioxide (SO₂) emissions as of Dec 31 / t

2023

2022

2021

Passenger transport

2,953

1,545

1,558

Freight transport

17,369

16,730

13,052

Other transport

197

42

41

Stationary facilities

1,151

1,412

Total

21,670

19,729

14,651

Combustion-related, well-to-wheel (WTW), scope 1 –3. Includes DB Arriva. Excluding USA Truck. In 2021, rail freight transport from/to China by DB Cargo and DB Schenker may have included double accounting, and so these values may be slightly higher.

Absolute hydrocarbon (NMHC) emissions as of Dec 31 / t

2023

2022

2021

Passenger transport

1,412

1,186

1,279

Freight transport

5,595

6,198

6,450

Other transport

68

57

53

Stationary facilities

178

425

Total

7,253

7,865

7,782

Individual figures are rounded and therefore may not add up.
Combustion-related, well-to-wheel (WTW), scope 1 –3. Includes DB Arriva. Excluding USA Truck. In 2021, rail freight transport from/to China by DB Cargo and DB Schenker may have included double accounting, and so these values may be slightly higher.

The consistent modernization of our vehicle fleet is our most important measure for reducing airborne pollutants. The high share of electrically powered rail transport also makes an important contribution, as the electrically powered rolling stock itself does not produce any local airborne pollutant apart from abrasion, but only during electricity generation. The calculation is based on the fuel consumption and composition of our vehicle fleet. We have been exclusively using low-emissions construction vehicles and machinery at our urban construction sites since mid-2018. Our combustion-related pollutant emissions are largely influenced by our ocean freight activities, which emit over 62% of soot particles. Stricter statutory regulations on sulfur content in fuels to reduce airborne pollutants have been in force worldwide in shipping since 2020. Due to the overly optimistic consideration of this legal intensification in 2021, and its correction in 2022, SO₂ emissions appeared to rise in 2022. The increase in SO₂ emissions in 2023 is the result of a change in methods within external tools in the calculation of indirect SO₂ emissions.

Emissions standards for our vehicles

Our long-range trucks meet the highest Euro V and VI standards and almost our entire passenger car fleet (99.9%) meets the Euro 6 emissions standard. Only about 15% of the vehicles in our rail transport fleet are still of the lowest pollutant level UIC 0. The share of rolling stock with low-pollutant electric traction remains at a high level at about 64%. The share of our buses meeting the Euro V and VI standards increased to about 91% (previous year: about 88%).

Methodology for airborne pollutants

The accounting principles are the Group-wide and aggregated final energy consumption and performance data as well as relevant emissions factors (EFA). We take into account the distribution of our fleets according to the pollutant standard in calculating the EFA. In addition, we use limit values for rolling stock (EU Directive 97/68/EC, EU Directive 2004/26/EC, EU Regulation 2016/1628), the TREMOD emissions calculation model, the EcoTransIT World accounting tool and our own calculations. Stationary emissions are accounted based on EFAs, which are provided for DB Group by the Heidelberg Institute for Energy and Environmental Research (ifeu).