Electric Trucks Get Boost From Multi-Megawatt Charging Stations

Source: By Ryan Fisher, Bloomberg • Posted: Wednesday, June 22, 2022

Battery-powered big rigs are becoming more popular thanks to powerful new technology.

A Mercedes-Benz eActros electric cargo truck
A Mercedes-Benz eActros electric cargo truckPhotographer: Krisztian Bocsi/Bloomberg

Broad adoption of heavy-duty electric trucks is looking closer than ever with manufacturers releasing new big rigs and the announcement that multi-megawatt charging is coming in 2024.

Attendees at the EVS 35 electric-vehicle conference in Oslo last week were able to check out a Scania truck charging at more than 1 Megawatt. That’s roughly four times greater than what Tesla’s Model 3 can charge. Swiss industrials firm ABB showed off its new multi-megawatt charger it says will be ready for pilots next year and commercial deployment in 2024. That product boasts an impressive capacity of up to 3MW.

The truck industry, relying heavily on diesel engines, faces tightening emission regulations as part of Europe’s so-called Green Deal, which aims to reach climate neutrality by 2050. While the availability of charging stations for electric passenger cars is increasing in many regions, a public infrastructure for heavy-duty, long-haul vehicles is essentially non-existent. Electrifying big rigs will be key for tackling climate change as trucks account for around 19% of all road transport emissions in Europe. No wonder the European Commission is eager to get larger-scale charging networks up and running.

The latest regulation on alternative fuels infrastructure — first proposed in mid-2021 — requires countries to install truck charging stations on both sides of some 170,000km of European roads every 60km to 100km. Ambitions have increased in the amendment stages to require more chargers with a minimum capacity of 700kW, up from 350kW previously.

The region’s biggest truckmakers are also investing in charging infrastructure. Last Thursday, the European Commission approved a joint venture between Volvo, Daimler Truck and Traton that plans to invest 500 million euros ($525 million) to set up 1,700 charging points across Europe by around 2027. Daimler Truck is involved in a similar initiative in the US, investing $650 million with Florida electric utility NextEra Energy and BlackRock to create a nationwide network of commercial-vehicle chargers.

Electric trucks are sitting higher on the agenda of manufacturers right now and have pushed hydrogen technology somewhat to the side — at least in the near future. It’s still important to put the positive momentum in the electric truck space into context.

Battery-powered rigs accounted for just 0.2% of global truck sales last year. Let’s zoom in on Volvo, one of the leaders in the space. The company says it had a 42% share of the European market for electric trucks in 2021, which consisted of only 346 registered vehicles. Volvo will start serial production of its heavy-duty electric rigs in the fall, the company saidlast month, adding that it took orders — including letters of intent to buy — for more than 1,100 electric trucks last year.

While the good news is that more models are coming to market, questions remain around the speed and cost of rolling out adequate charging infrastructure for big rigs. At the Eurelectric energy conference in Brussels last week, there was one issue mentioned again and again as a major hurdle for the transition toward cleaner energy and transport: The time it takes to get grid updates permitted and built.

When it comes to energy infrastructure, the European Commission has sprung into action following Russia’s invasion of Ukraine, suggesting measures to encourage energy efficiency, increase renewable-generation targets and tackle slow and complex permitting for clean-energy projects to pull them forward and reduce dependence on Russian fossil fuels.

A similar focus on speeding up grid connections for EV charging would accelerate the transition to cleaner trucking — and bolster efforts to protect the global climate.

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