Study finds more stringent EU emissions targets are required to decarbonise road freight transport by 2050
Total cost of purchasing and maintaining electricity trucks in Europe will be lower by 2025, and hydrogen-powered fuel cell trucks by 2030, than using traditional diesel-fueled vehicles, according to the latest analysis by Cambridge Econometrics, using numbers for Italy, Poland and Spain. This can contribute to both achieving climate targets for the sector and creating energy independence from Russian fossil fuels. Infrastructure developments will be needed for making the transition.
In a series of three studies on Italy, Poland and Spain, research consultancy Cambridge Econometrics has recently analyzed how full carbon-free operation could be achieved in freight transport – a sector that accounts for nearly 7% of global COtwo emissions. The European Commission’s latest REPowerEU package, which, in view of Russia’s invasion of Ukraine, aims to make Europe independent of Russian fossil fuels well before 2030, adds further relevance to the research topic. Part of the transition to net zero in freight transport could include reducing the dependence on oil by replacing diesel trucks.
Commissioned by the European Climate Foundation, the analysis examined the possibilities of technological implementation necessary to achieve the climate goals based on modeling the truck fleets of Italy, Poland and Spain, with several of the findings also applying to Central and Eastern Europe, where Cambridge Econometrics also has an office, in Budapest.
To achieve environmental targets set by the EUmanufacturers should reduce CO2 emissions from new trucks by 15% by 2025 compared to 2019-2020 levels and by 30% by 2030. The EU targets apply to new vehicles only, suggesting that fleet-level emissions will be decreasing more slowly, as used lorries will still be used in fleets after that date. This is expected especially in Central and Eastern European countries where proportion of used trucks is generally higher in fleets.
According to Cambridge Econometrics modelling, because of this fleet effect, total emissions in the sector would only decrease by 28% in Poland and by 31% in Italy and Spain by 2050, if the emission reduction targets of 15% and 30% are followed. Moreover, even if the sale of new non-zero trucks were completely banned from 2040, the sector would still not function carbon-free in 2050: emissions would remain around a fifth of 2021 levels in Eastern Countries, and around 6 percent of the current COtwo emissions would still be released on Italian and Spanish roads compared to the target net zero levels.
“Necessary emission reduction targets can be achieved in several ways: by increasing the efficiency of existing diesel vehicles, by increasing the share of biofuel and by spreading zero-emission vehicles,” said Dóra Fazekas, director of Cambridge Econometrics’ Budapest office. electricity and hydrogen-powered trucks are more efficient; they have lower energy requirements. However, for them to spread, it is also essential to build the right infrastructure, which is different for each technology.”
Another advantage of electricity and hydrogen-powered trucks is that not only do they have zero direct emissionsbut they also have lower total emissions than conventional vehicles, considering indirect emissions associated with the production of electricity and hydrogen.
Expected lifecycle cost of heavy transport vehicles (Italy, Poland and Spain)
abbreviations: ICE: Internal Combustion Engine; BEV: Battery electricity vehicle; BEV-ERS: Battery electricity Vehicle-Electric Road System; VEGF: Fuel Cell electricity vehicle
note: Private infrastructure refers to the cost of such installations as electricity charging stations in warehouses and logistics centers, while public infrastructure involves the construction of hydrogen/electric charging stations and overhead power lines next to motorways, for example.
the EU recently presented its Alternative Fuels Infrastructure Regulation (AFIR) proposals that aim to provide adequate infrastructure for electricity and hydrogen-powered lorries along the main European routes (TEN-T network).
According to the proposals, for fully electricity trucks (battery electricity vehicles – BEV), chargers must be built at logistics centers and depots, and fast chargers along main roads. While charging generally takes longer than refueling, with adequate sizes of batteries charging can be linked to the mandatory rest intervals of drivers. electricity trucks equipped with pantographs (BEV-ERS) have smaller batteries than BEVs, but, like the railway, they are connected to the overhead power line with a pantograph, and they can charge on the fly. Of course, this requires major infrastructure developments – an example is an electricity motorway section currently being tested near Frankfurt.
For spreading the use of fuel-cell vehicles (FCEV), building a network of charging stations will be key, as is the case with battery electricity trucks. Hydrogen could be produced locally at the charging stations, using electrolysis, or be transported there via wire or fuel trucks from a central production unit.
Cambridge Econometrics’ study also points out that the total cost of ownership (TCO) – including purchase, maintenance and operation – of electricity trucks and vans will be lower than that of internal combustion engine trucks by 2025, or within three years only. While their purchase price may remain higher, better efficiency and lower fuel prices and service costs will make zero-emission trucks cheaper to use than traditional vehicles.
The cost of hydrogen production is expected to fall drastically in coming years due to a spread in their use, making fuel cell heavy goods vehicles cheaper to own and operate than internal combustion trucks by 2030. In addition, the cost of fuel for diesel vehicles in Europe may be further increased if the current tax advantages in several countries are abolished. Under the EU‘s new “Eurovignette” directive, tolls on European roads will also depend on vehicle emissions, which will further increase the cost of operating internal combustion trucks. The cost of fossil fuels is also expected to rise if the European emissions trading system (EU-ETS) will be extended to transport and buildings in 2025.
Cambridge Econometrics is an economic research consultancy with offices in Cambridge, Brussels, Budapest and Northampton, Massachusetts. Its research activity primarily focuses on policy process analysis and forecasting using econometric modeling and data analysis.
Cambridge Econometrics Hungary was founded in 2018 with the purpose to spread economic consulting in Central East Europe and support economies of the region by using the approach, methodology and tools developed by Cambridge Econometrics.
A complex and connected world offers access to endless data. Cambridge Econometrics helps make the information transparent and provide clarity. Cambridge Econometrics’ econometric modeling show trends and calculate the outcomes of anticipated scenarios.
With its evidence-based insights, Cambridge Econometrics supports governments, businesses and non-governmental organizations in managing complex challenges facing society.
Cambridge Econometrics has developed a global, macro-econometric model, called E3ME, designed to address major economic and economy-environment policy challenges. The economics consultancy provides research, modeling and analysis in the following areas: innovation; infrastructure; tax and finance; sectors, trade and competitiveness; regions, cities and local areas; jobs and skills; inequality and poverty; population, migration and housing; health and social care; energy; climate; circular economy; and natural resources.
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