Tag Archives: Hydrogen

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BMW’s Hydrogen Bet: Zipse Warns Europe Is Falling Behind

If you ask BMW Group CEO Oliver Zipse, Europe is sleepwalking through one of the biggest technological pivots of the decade. And the danger, he says, isn’t that battery-electric vehicles will fail—but that the continent is putting all of its industrial weight behind a single drivetrain while the rest of the world quietly builds a hydrogen head start.

Speaking at November’s Automobilwoche Kongress, Zipse didn’t mince words: Asia and the U.S. are racing ahead in hydrogen tech while Europe sticks to its one-track battery strategy. “Hydrogen has shifted from a fringe experiment to a strategic industrial technology,” he warned. And according to him, it’s a shift Germany risks missing entirely.

A Lone Wolf in Europe’s Hydrogen Desert

While most European automakers have abandoned fuel cell development, BMW is doubling down. The company’s involvement with hydrogen isn’t new—it reaches back to the early 2000s and even includes hydrogen-burning V12 prototypes. But the modern approach looks far different. Today’s fuel cell systems are essentially BEV powertrains, except the electricity is produced on demand by the stack rather than stored in a massive battery.

BMW argues that this hybridization of sorts delivers the best of both worlds:

  • Fast refueling
  • Reliable performance in extreme temperatures
  • Lighter energy storage for long-range travel

It’s a pitch aimed squarely at markets with shaky charging infrastructure or heavy grid constraints.

The iX5 Hydrogen: From Pilot Fleet to Production Reality

BMW’s commitment becomes tangible in 2028, when the iX5 Hydrogen enters low-volume series production. After years of global fleet testing, the model will transition from engineering exercise to an official line item on the company’s production roadmap.

Under the skin, the setup is familiar:

  • A German-built fuel cell stack
  • High-pressure hydrogen tanks
  • A small battery buffer to provide punch during hard acceleration
  • An electric motor borrowed from BMW’s fifth-generation eDrive family

The system slots into the standard X5 platform with minimal re-engineering—proof, says BMW, that future vehicle architectures should stay propulsion-agnostic.

That flexibility is a core part of the strategy. BMW wants platforms that can host BEVs, hybrids, combustion engines, or fuel cells depending on where each vehicle is sold. In its view, locking into a single drivetrain is a dangerous bet in a world with wildly uneven infrastructure.

Funding, Friction, and a Warning Shot at Regulators

BMW’s fuel cell push is supported by €273 million in government funding under the EU’s IPCEI Hydrogen initiative. But Zipse argues it’s still not enough to keep pace with countries that treat hydrogen as a priority, not an experiment.

His biggest frustration lies with Europe’s “tailpipe-only” regulations—rules that rate cars solely on what comes out of the exhaust, not the emissions involved in building them. BMW’s view is that lifecycle emissions matter just as much as tailpipe zeros, and ignoring them gives policymakers a distorted sense of progress.

The Critics Aren’t Quiet—And BMW Knows It

Skeptics still question hydrogen’s viability in passenger cars.
Fuel cell tech is expensive, the fueling network is almost nonexistent, and BEVs are far ahead in maturity. Hydrogen production and distribution also come with efficiency penalties that make analysts doubt its cost competitiveness.

These aren’t fringe concerns—they represent mainstream European policy. Most of the EU expects BEVs to dominate sales by the mid-2030s.

But BMW sees a different landscape.

Where Hydrogen Actually Makes Sense

BMW isn’t pitching fuel cells as BEV killers. The company sees them as a complementary option for:

  • Regions with unreliable fast-charging access
  • Areas where grid capacity limits large-scale EV adoption
  • Drivers who regularly cover long distances or haul heavy loads
  • Customers who can’t practically live with a full BEV

In other words, hydrogen isn’t a replacement—it’s a pressure release valve.

A Future That Depends on Europe’s Next Move

The iX5 Hydrogen’s move to production isn’t a volume play; it’s a stake in the ground. BMW believes hydrogen will become a meaningful part of its lineup later in the decade—but only if Europe keeps pace on infrastructure and regulatory flexibility. International partners are already showing interest. The question is whether BMW’s home continent will do the same.

Zipse’s final message was blunt:
If Europe doesn’t build a hydrogen future, someone else will. And once that industrial shift happens, catching up won’t be easy.

Source: BMW

News

Toyota Pushes Hydrogen Tech Into Overdrive at Super Taikyu Final

At this year’s Super Taikyu Final Thanksgiving Festival—held November 15–16—Toyota isn’t just showing up. It’s making a statement. The company is rolling into Round 7 of the 2025 ENEOS Super Taikyu Series with something far more interesting than another evolutive track special. It’s bringing the liquid hydrogen-powered GR Corolla and using the grueling multi-hour endurance format as a live test lab for the hydrogen future it insists is still worth fighting for.

And judging by the tech Toyota is unveiling, “hydrogen future” might not be as far off as the skeptics think.

Liquid Hydrogen, Evolved: The GR Corolla H2 Levels Up

Toyota has treated the Super Taikyu series like its own skunkworks playground for the last few seasons, and the #32 TGRR GR Corolla H2 is now one of the most sophisticated hydrogen-burning testbeds anywhere on Earth.

This car isn’t a fuel-cell EV—this thing burns hydrogen in a reworked internal-combustion engine. Same pops, bangs, and turbocharged fury. Zero carbon.

At Round 3 earlier this year at the Fuji 24 Hours, the hydrogen Corolla hit several milestones:

  • A new liquid-hydrogen filling valve trimmed weight and bumped safety margins.
  • Toyota successfully tested hydrogen combustion-mode switching, giving engineers better control at high load.
  • Most impressively, the team finished the full 24 hours without swapping the high-pressure liquid-hydrogen pump—a huge leap in durability.

The catch? More power equals more pump stress. Running maximum output continuously is still a challenge, so for the season finale Toyota is gunning for the next frontier: full-race max-power durability.

Superconductors in Your Fuel Tank? Toyota Says Yes.

Here’s where things get wild.

Toyota announced it has reached the point where its hydrogen prototype can run with a superconducting motor inside the fuel tank—a device that drives the liquid-hydrogen pump.

Why is this a big deal? Because superconductors offer nearly lossless efficiency when chilled to extremely low temperatures.

Liquid hydrogen happens to sit at –253°C, which is perfect.

That synergy unlocks some huge advantages:

  • Up to 1.3× more tank capacity thanks to a more compact pump/motor assembly.
  • Lower weight and lower center of gravity, improving handling.
  • Reduced boil-off losses because the bulky external flange (a heat leak point) disappears.
  • More compact packaging, meaning future hydrogen performance cars won’t need awkward tank shapes or packaging compromises.

Toyota is essentially discovering a weird new physics cheat code that only works in hydrogen applications. It’s bold, experimental, and frankly the kind of high-risk R&D we wish more automakers were still doing.

The Multi-Pathway Message: Hydrogen Isn’t Dead

Toyota has been almost stubbornly committed to its “multi-pathway” carbon-neutrality strategy—battery EVs, hybrids, plug-ins, fuel cells, and now hydrogen-burning performance engines all get equal development love.

Critics say it dilutes focus. Toyota says customers and markets around the world need options, not dictates.

Bringing a liquid hydrogen race car with superconducting pump tech to a major motorsport event feels like Toyota doubling down on that philosophy.

And honestly? We’re here for it.

Meanwhile: A Little American Flavor in Japan

Alongside the hydrogen fireworks, Toyota is also adding some cultural spice to the festival. As part of a Japan–U.S. automotive exchange event, Toyota will display three U.S.-built models rarely seen on Japanese roads:

  • Toyota Camry (U.S.-spec)
  • Toyota Highlander
  • Toyota Tundra

Visitors can hop in and check them out—an opportunity to experience the size, style, and swagger of American-market Toyotas that simply aren’t sold domestically in Japan. The Tundra alone is a curiosity in a country where kei trucks dominate narrow streets.

It’s a small gesture, but a cool one, reminding fans that Toyota is just as much an American brand as it is a Japanese icon.

Super Taikyu has evolved into Toyota’s hydrogen crucible—an endurance torture test where the automaker can break things, fix them quickly, and break them again. The introduction of superconducting pump technology, integrated inside a liquid hydrogen tank chilled to –253°C, might be one of the most radical motorsport innovations in years.

While other companies chase efficiency algorithms and OTA updates, Toyota is out here reinventing physics inside a race car.

And honestly? We hope they keep going.

Source: Toyota

News

Toyota Faces Explosive Allegations Over Mirai Hydrogen Sedan

Toyota, the automaker that helped define modern reliability, now finds itself at the center of a lawsuit that reads more like a crime novel than a consumer complaint. A new class action filed in California accuses Toyota of running what plaintiffs call a “criminal enterprise” designed to hide serious safety defects in its hydrogen-powered Mirai sedan. The requested damages? A staggering $5.7 billion.

Filed in the U.S. District Court for the Central District of California by the Ingber Law Group, the 142-page complaint invokes the Racketeer Influenced and Corrupt Organizations Act (RICO) — the same law once used to dismantle the mob. The suit alleges that Toyota, its financing arm, and several California dealerships engaged in a coordinated cover-up of what technicians reportedly described as “ticking hydrogen bombs.”

Hydrogen Dreams Turned Headaches

According to the filing, Toyota and its hydrogen partners concealed multiple flaws in the Mirai, including potential hydrogen leaks near hot engine components, posing an explosion risk. The plaintiffs also allege repeated instances of sudden power loss, erratic acceleration, and braking failures.

One Mirai owner reportedly pressed the brake pedal only for the car to surge forward. Others described multi-second delays between hitting the throttle and any response from the powertrain — a terrifying experience in traffic. In at least one case, dealership technicians allegedly told customers to seek legal action after experiencing repeated failures.

Adding insult to injury, Toyota Motor Credit Corporation, the company’s financing arm, is accused of “aggressive financial collection tactics” against affected owners. The suit also points to the limited and unreliable hydrogen refueling network in California, which remains the Mirai’s only viable market.

A Hydrogen Meltdown in Torrance

The complaint highlights a particularly damning episode at a Torrance, California, hydrogen station, which allegedly dispensed contaminated fuel that left at least 75 Mirais permanently inoperable. Plaintiffs claim Toyota failed to disclose the issue publicly, instead burying affected vehicles and compensation claims under corporate bureaucracy.

“This lawsuit isn’t about a simple defect — it’s about organized fraud,” said lead attorney Jason M. Ingber in a statement. “Toyota engineered, financed, and controlled California’s hydrogen network, then used that control to hide safety failures and financial harm to consumers.”

The RICO Angle: From Mobsters to Motors

Originally written to prosecute mafia bosses, the RICO Act allows plaintiffs to argue that a corporation engaged in a pattern of criminal activity. In this case, the lawsuit suggests Toyota operated a white-collar version of organized crime, using its corporate ecosystem — dealerships, financiers, and fuel partners — to disguise safety risks and protect profits.

The proposed class includes all Californians who purchased or leased a 2016–2025 Toyota Mirai in the past four years. Plaintiffs claim Toyota “ingeniously concealed catastrophic safety defects so their fraudulent scheme remains undetected.”

A Hydrogen Story Hollywood Never Wrote

If this all sounds like a sequel to Who Killed the Electric Car?, that’s because Hollywood never got around to writing the hydrogen one. For now, the Mirai remains a niche symbol of Toyota’s zero-emission ambitions — but this lawsuit could turn it into a case study in how not to launch an alternative-fuel future.

Toyota has not yet filed a response to the complaint. The company previously touted the Mirai as a technological triumph — the world’s first mass-produced hydrogen fuel-cell sedan — and a key part of its long-term carbon-neutral strategy.

But if even part of the lawsuit’s explosive allegations prove true, the Mirai’s future could look far less like a vision of tomorrow and far more like a cautionary tale about overpromising technology before the world is ready to fuel it.

Source: Reuters