Press release: Combined Transport: carbon footprint and energy efficiency 06/12/21
< Back to list
Combined Transport: carbon footprint and energy efficiency
6 December 2021: The results of the study on the carbon footprint and energy efficiency of Combined Transport1 have been released:
Moreover, the outlook for door-to-door Combined Transport is bright: further enhancement of its performance does not require scientific breakthroughs. Thanks to an already high level of electrification, door-to-door Combined Transport is capable of directly using renewable electricity, which means that its carbon footprint improves year-after-year just as the proportion of renewable electricity proceeds within the energy mix of countries.
UIRR retained the services of d-fine GmbH of Frankfurt, Germany to prepare the study, which analyses 10 actually used transport chains. The methodology was based on existing carbon calculators, as well as on the actual (2020) energy mix of the countries affected.
A similar study2 was last carried out in 2003 with EU funding through the PACT programme. The results established by d-fine represent a substantial improvement as compared to 20 years ago, when an average 45% lower carbon footprint was found - compared to state-of-the-art road transport at the time.
The outlook for Combined Transport is also positive as the technology to fully electrify the door-to-door intermodal transport chain is available already today. Intermodal stakeholders take steps daily towards full electrification, whereby to gain the capability to directly use renewably generated electricity to produce their transport services. ____________ |
|
|||||
|
Combined Transport: carbon footprint and energy efficiency
6 December 2021: The results of the study on the carbon footprint and energy efficiency of Combined Transport1 have been released: § The contemporary door-to-door Combined Transport emits 60-90% less CO2 than the corresponding, state-of-the-art (Euro6) unimodal trucking alternative. § The energy need of door-to-door Combined Transport (MJ/tkm) is 40-70% lower than the corresponding, state-of-the-art (Euro6) unimodal trucking alternative.
Moreover, the outlook for door-to-door Combined Transport is bright: further enhancement of its performance does not require scientific breakthroughs. Thanks to an already high level of electrification, door-to-door Combined Transport is capable of directly using renewable electricity, which means that its carbon footprint improves year-after-year just as the proportion of renewable electricity proceeds within the energy mix of countries.
UIRR retained the services of d-fine GmbH of Frankfurt, Germany to prepare the study, which analyses 10 actually used transport chains. The methodology was based on existing carbon calculators, as well as on the actual (2020) energy mix of the countries affected.
A similar study2 was last carried out in 2003 with EU funding through the PACT programme. The results established by d-fine represent a substantial improvement as compared to 20 years ago, when an average 45% lower carbon footprint was found - compared to state-of-the-art road transport at the time.
The outlook for Combined Transport is also positive as the technology to fully electrify the door-to-door intermodal transport chain is available already today. Intermodal stakeholders take steps daily towards full electrification, whereby to gain the capability to directly use renewably generated electricity to produce their transport services. ____________ |
|
- Related documents
PR CT carbon footprint and energy efficiency | EN |