A new class of the Xcient Hyundai truck, equipped with more efficient fuel cells with longer life-span, is due to arrive in Europe in the fourth quarter, said Mark Freymueller, CEO of Hyundai Hydrogen Mobility (HHM).
And it’s not the only one taking steps in that direction.
FRANKFURT — South Korea’s Hyundai Motor plans to ship a new series of fuel-cell trucks to Europe later this year, turning up the heat on rivals in a battle to test the viability of hydrogen-powered heavy goods transport.
Hydrogen lags electric batteries in the green transport stakes because it is more expensive, but proponents say for long-haul transport hydrogen-powered trucks have the advantage because they have a greater range.
HHM, a joint venture between Hyundai and Swiss hydrogen company H2 Energy, has been renting out “green” hydrogen trucks to commercial clients in Switzerland since last October in the world’s most advanced pilot in the field.
HHM plans to go into other European countries next year. “Germany and the Netherlands are the most likely,” Freymueller told Reuters, adding there was also interest for pilots from Austria, Norway, France, Italy, Spain and Denmark.
Hyundai’s latest push will put more pressure on local players, which are developing their own hydrogen plans.
These include Germany’s Daimler with Sweden’s Volvo and Italy’s Iveco, a unit of Italian-American vehicle maker CNH Industrial, which is cooperating with low-emission truckmaker Nikola .
Hydrogen has come into the spotlight in Europe, where EU environment ministers want truck CO2 emissions cut by a third by 2030 from 2019 levels, threatening potential diesel bans and higher taxes but promising up to 75% of lower road tolls for greener vehicles.
Although more expensive than battery electric vehicles, fuel cell electric vehicles, driven by on-board hydrogen, will potentially benefit from Europe’s desire to build a world-leading industry around the hydrogen technology.
A study by consultancy Berylls Strategy Advisors reckons that by 2030, 25% of new truck sales in Europe will be battery powered and 10% fuel cell. But the ratio could change if green hydrogen is scaled up, it said.
Hyundai chose Switzerland for its pilot on the basis of benign regulation, environmentally conscious customers and reliable hydropower, which accounts for 58% of the country’s power mix. Local road tax is waived for no-carbon vehicles while fossil fuel ones pay around 800 euros ($977) for each ton of CO2 they emit.
“Anyone wanting to see how fuel cell technology works on the road should go to Switzerland,” said Steffen Stumpp, head of the business unit commercial vehicles at Berylls.
Initial customer feedback on Hyundai’s pay-per-use pilot seems positive. Drivers at grocery chain Coop like the similar payload to diesel trucks and with only a few minutes of refuelling, a spokeswoman said.
“There was no need to change my driving style,” Nadine Sigrist, a driver for retailer Migros in the Zurich region, said “What was new for me was the huge acceleration and the quiet engine.”
As more Hyundai trucks arrive, Swiss power utility Alpiq is planning to ramp up its electrolysis capacity at Niedergoesgen where it produces green hydrogen that is then transported on trucks as gas to filling stations.
“We will go from 2 megawatts in the direction of double-digit, or 5-10 megawatts,” said Amedee Murisier, head of hydropower generation at Alpiq and board member of Hydrospider, a Swiss green hydrogen joint venture between Alpiq, gases group Linde and H2 Energy.
Hydrospider could reach breakeven as soon as 2022, Murisier said.
Battery electrics vs. fuel cells
McKinsey expects hydrogen for fuel cell electric vehicles to achieve break-even with diesel only in 2028 at the earliest, but carmakers are pushing ahead with plans, albeit at different speeds.
Nikola and Iveco say they will produce a fuel cell electric vehicle by 2023, putting them two years ahead of Volvo and Daimler Truck, which are muscling in but will not have test trucks for three and a half years.
Separately, Daimler group subsidiary Mercedes Benz will prepare customer trials for its GenH2 Truck in 2023.
“Nikola’s timeline is significantly ahead of Daimler/Volvo,” said Stumpp. “Hyundai will be neck on neck with Nikola/Iveco if they offer the Xcient in other European markets.”
Daimler Truck chief executive Martin Daum said that a hydrogen fuelling network needed to be in place first before fuel cell trucks would find buyers, which would take years to develop, so they were timing their moves in line with the infrastructure.
Truckmaker Paccar’s DAF is also in the game, but its priority is battery electric vehicles, where Nikola is also active and plans market entry in fourth quarter 2021.
Other companies have also chosen to put fuel cell technology second.
Traton, the truck division of Volkswagen, recently said that only the battery route had been chosen by its MAN and Scania units.
“Hydrogen trucks have a decisive disadvantage. Only a quarter of the original energy goes into propulsion, three quarters are lost through conversion,” Traton CEO Matthias Gruendler and alternative drivetrains specialist Andreas Kammel wrote in a column in newspaper Handelsblatt.
“With e-trucks, the ratio is the other way around,” they said.
Traton has left the door ajar by raising its investment in truck maker Navistar that is developing fuel cells in the Americas.
On the automotive supply front, companies are hedging their bets.
Bosch, a fuel cell proponent, has entered into a joint venture with China’s Qingling Motors to supply fuel cell systems for 2022/2023.
Elringklinger and Mahle, too, are also working on fuel cell technology.
U.S. engine maker Cummins, due to start building a fuel cell system factory in Herten, Germany, later this year, sees no conflict.
“Fuel cells will complement the BEV (battery electric vehicle) system in places where energy storage, range, weight and power requirements are unable to be met by batteries alone,” said Amy Davis, president of New Power at Cummins.
“That’s why we are investing in the electric vehicle drivetrain components, because we think those will be maturing too, and they will be key to both fuel cells and batteries.”