EXPLANATIONS FOR DETERMINING THE GHG EMISSIONS
FOR SCOPE 3.4
General procedure
In addition to direct shipments, an essential part of our business involves ensuring permanent delivery capability to enable us to deliver to our customers at short notice. For this purpose, we have two warehouse locations in Germany. When taking the transport-related greenhouse gas emissions into account, we decided not to include the related goods transport routes in the GHG balance until the goods have been sold and delivered. In this way, we map the entire transport route of the goods for each delivery, i.e. from the production site to the customer's factory gate, within a financial year, . Any inventory quantities as of the balance sheet date are therefore not taken into account and only accounted in the delivery for the following year.
Definition of the distances considered
When determining the transport routes, we only consider the part that we commission from logistics service providers and for which we therefore also bear the direct transport costs. We can only control this section of the supply chain ourselves and this also applies to possible measures to reduce greenhouse gas emissions. As a quality and service-oriented company, it is our concern to be responsible for all logistics processes for all of the goods we buy and sell. At the moment this is not fully possible, but we are gradually working on our own logistics.
Calculation of the distances
The distances are calculated in accordance with the data provided by Google Maps . The determined distance relates only to the shortest distance between two locations. A precise examination of the actual distance covered between the exact addresses is not carried out for reasons of effort. In the rare event of a delivery within one location, it is not therefore listed as a transport route in the evaluation. Sea transport distances are determined with the help of the platform: EcoTransITworld.
Transport weight - limits
Against the background of effort and relevance, only shipments of 50 KG or more are recorded (except for the Neocarmin and FESAGO® indicator spray products). Consequently, sample shipments (usually 0.5-1 KG) are excluded from the balance sheet.
Other
Between European seaports and our warehouse locations, the shipments we commission are carried out by barge or freight train as standard and by truck in exceptional cases only. The means of transport actually used on these routes can only be determined retrospectively with great effort, which is why we were only able to make a distinction between barge, freight trains and trucks beginning from November 2019 within the present greenhouse gas balance. For all purchases made before, we therefore assume that the most unfavourable emission factor, transportation by truck, is used on these routes. Starting with the GHG balance 2020, we can fully differentiate the means of transport actually used and show them separately.
Emission factors
1. Sea transport
12 tons per TEU
| Asia - Northern Europe | 0.0037 kg CO2e/t*km | 44.1 g CO2e/TEU*km |
| Asia - Northern Europe (Refeer) | 0.0084kg CO2e/t*km | 100.5 g CO2e/TEU*km |
| Asia - Europe (Mediterranean) | 0.0039 kg CO2e/t*km | 46.6 g CO2e/TEU*km |
| Europe - South America | 0.0057 kg CO2e/t*km | 68.8 g CO2e/TEU*km |
| Europe - India | 0.0049 kg CO2e/t*km | 58.9 g CO2e/TEU*km |
| Within Northeast Asia | 0.0086 kg CO2e/t*km | 103.5 g CO2e/TEU*km |
| Within Northern Europe | 0.0115 kg CO2e/t*km | 138.4 g CO2e/TEU*km |
| Asia- South America | 0.0053 kg CO2e/t*km | 63.1 g CO2e/TEU*km |
| North America (East coast) - Northern Europe | 0.0070 kg CO2e/t*km | 84.5 g CO2e/TEU*km |
| North America (West coast) - Asia | 0.0053 kg CO2e/t*km | 64.1 g CO2e/TEU*km |
Emission factors are based on the 2020 Global Container Shipping Trade Lane Emissions Factors of the Clean Cargo Working Group. The application was carried out in accordance with the CCWG Carbon Emissions Methodology 2015. The emission factors include the upstream chain emissions ("well-to-wheel") of the fuel consumed and assume an average utilization / loading of the container ships of 70%.
Example:
93.1 g CO2e/TEU*Km / 12 [∅-load per TEU in tons] = 7.758 g CO2e/t*Km / 1000 = 0.0078 kg CO2e/t*Km
The calculated distances for sea transport were increased by 15% in accordance with the CCWG Carbon Emissions Methodology 2015 to take detours through different ports into account.
2. Overland transport (truck)
Assumptions: Capacity 24t, fuel: diesel, pollutant class, Euro-5, road category: average value, degree of loading 60% and proportion of empty trips 20%, corresponding to 50% capacity utilisation (see Ecotransit Methodology 2018)
0.0823 kg CO2e/t*Km (including upstream chain)
3. Barge
0.0392 kg CO2e/t*Km (including upstream chain)
4. Airplane (cargo)
0.779 kg CO2e/t*Km (including upstream chain)
5. Freight train
Diesel (50% share): 0,034 kg CO2e/t*Km (incl. upstream emissions)
Electric (50% share): 0,019 kg CO2e/t*Km (incl. upstream emissions)
Combined: 0,0265 kg CO2e/t*Km (incl. upstream emissions)
6. Parcel deliveries (trucks)
Our FESAGO®products are usually sent by parcel shipping. These deliveries are usually picked up in a smaller transporter, reloaded in the distribution centre and then transported by truck, freight train or plane before delivery is again carried out in a smaller transporter. An exact representation of these shipments is therefore not possible, which is why we use an emission factor here, which should reflect the combination of the means of transport used. Accordingly, this lies between a small delivery vehicle (small shipment quantity, → relatively high CO2 emissions per unit of measure) and a regular truck (large shipment quantity, → lower CO2 emissions per unit of measure):
Assumptions: Trucks, capacity 3.5-7.5 t, fuel: diesel, pollution class Euro-5, road category: average value, capacity 3 t, utilisation 50%.
0.247 kg / ton*km (incl. upstream chain)