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Transportation Power Technology

Daimler Shows Off Long-Range Hydrogen Semi, New Battery Truck (forbes.com) 75

Daimler, which has worked on hydrogen technology for decades, is developing a fuel-cell semi with range of up to 600 miles per fueling and next-generation battery trucks amid intensifying competition to curb diesel and carbon exhaust from heavy-duty vehicles. Forbes reports: The German auto giant's truck unit showed off the Mercedes-Benz GenH2, a concept truck designed for long haul runs that will be tested by customers in 2023, at an event in Berlin Tuesday outlining steps it's taking to meet the goals of the Paris Climate Agreement. Volume production of GenH2s starts in the second half of the 2020s. The company also debuted its Mercedes-Benz eActros LongHaul, a battery-powered truck for short- and medium-range routes goes about 300 miles (500 kilometers) between charges. eActros production starts in 2024.

Both trucks share Daimler's new ePowetrain modular platform to help hold costs down. They'll be available initially in Europe, though versions for North America and Japan will arrive around the same time, the company said. [...] A unique twist with Daimler's GenH2 truck is that the system relies on liquid hydrogen, rather than highly compressed hydrogen gas, the current standard. The benefit is that liquid hydrogen is more energy dense and uses tanks that are much lighter than those required for gaseous fuel, Daimler said. "This gives the trucks a larger cargo space and higher payload weight," while also improving range, it said.
The combination of hydrogen and battery vehicles "enables us to offer our customers the best vehicle options, depending on the application," Daimler Chairman Martin Daum said at the event. "Battery power will be rather used for lower cargo weights and for shorter distances. Fuel-cell power will tend to be the preferred option for heavier loads and longer distances."
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Daimler Shows Off Long-Range Hydrogen Semi, New Battery Truck

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  • Fuel Cells (Score:4, Informative)

    by backslashdot ( 95548 ) on Wednesday September 16, 2020 @08:54PM (#60513538)

    Dude, ditch the fuel cells at the roadside somewhere. Fuel cells are a pain in the ass. I apologize, but there's no other way to put it. They need to work on their active accident avoidance technology instead. I can't believe they would even show their face in public after they shamefully admitted back in June that it would it will take them 5 more years to reach Tesla's 2017 level of self driving.

    • by NateFromMich ( 6359610 ) on Thursday September 17, 2020 @12:11AM (#60514098)

      Challenger.

      It's a German company though. It would be much more appropriate to call it Hindenburg.

      • by danda ( 11343 )
        fun fact: The Hindenberg did not burn primarily because of the hydrogen, but rather because of the skin/fabric which was doped with aluminum oxide, a highly combustible material that was later used as rocket fuel. Previous Zeppellins did not use on their fabric. The fire itself likely started due to electrostatic spark from the rigid metal frame to wet canvas strings induced by stormy weather. Hydrogen got a bad name for decades because of it. The Zeppellin company found out the cause, documented in
  • Nullify recent fines and perhaps a US release is reconsidered.

  • by whoever57 ( 658626 ) on Wednesday September 16, 2020 @10:54PM (#60513906) Journal

    A unique twist with Daimler's GenH2 truck is that the system relies on liquid hydrogen, rather than highly compressed hydrogen gas, the current standard

    I assume this means cryogenic storage. How much energy does it take to cool the H2 down to temperatures at which is is liquid? Once the hydrogen has been cooled sufficiently, larger tanks would be more efficient, since energy required for cooling will be related to the surface area of the tank. Or, perhaps rely on some of the liquid H2 evaporating (either through usage or losses) to keep it cool?

    Note that this will still require a battery, because fuel cells are not good at supplying the peaks of power required, so a battery provides a buffer.

    • Re: (Score:2, Troll)

      by Rei ( 128717 )

      For as dangerous as high pressure gaseous hydrogen is, liquid hydrogen is even worse. To name a few:

      * Air entrained in liquid hydrogen freezes out as a high-explosive slush, with burn properties similar to TNT.

      * Boiloff has gaseous hydrogen's property of burning in almost any fuel air mixture with tiny ignition energies and readily undergoing deflagration-to-detonation reactions. But unlike gaseous hydrogen, which only pools under overhangs, LH2 boiloff/air mixtures pool first near the ground (from chillin

    • The battery is more important for regenerative breaking ...

      • The battery is more important for regenerative breaking ...

        If I owned one of these, I would certainly hope that my regeneration did not break!

        But, yes, the battery is needed for regenerative braking

    • by chr1973 ( 711475 )

      A unique twist with Daimler's GenH2 truck is that the system relies on liquid hydrogen, rather than highly compressed hydrogen gas, the current standard

      I assume this means cryogenic storage. How much energy does it take to cool the H2 down to temperatures at which is is liquid? Once the hydrogen has been cooled sufficiently, larger tanks would be more efficient, since energy required for cooling will be related to the surface area of the tank. Or, perhaps rely on some of the liquid H2 evaporating (either through usage or losses) to keep it cool?

      Note that this will still require a battery, because fuel cells are not good at supplying the peaks of power required, so a battery provides a buffer.

      See my reply above, https://hardware.slashdot.org/... [slashdot.org]
      But:

      Liquefaction energy:
      - 0.72 MJ/l (0.2 kWh/l) - theoretical minimum (reversible Carnot process)
      - 2.5-5 MJ/l (0.7-1.4 kWh/l) for industrial liquefires in as of 2019

      However, I think a fuel cell will do a poor job at converting H2 to energy, efficiency wise (50%???). It'd be interesting to see some numbers for the total energy round trip, e.g. from solar panels to liquid hydrogen, and then via a fuel cell as kinetic energy in a truck.

  • Two lessons (Score:5, Funny)

    by quenda ( 644621 ) on Thursday September 17, 2020 @06:00AM (#60514720)

    I learned

    1) A "semi" is an articulated lorry, or the tractor section.

    2) Do not use the Urban Dictionary as your first source for defining unfamiliar words.

  • Just wondering. As the energy storage component of a vehicle it seems complex, low capacity, and disposable.
    So it costs more to make esp. environmentally, doesn't store much energy, and represents and environmental hazard when it reaches end of life.
    It's weird then that fuel cells haven't caught on.

    • Fuel cells don't last forever either and their manufacture is energy intensive. Then you have to put fuel into them. So they're like batteries, but worse

  • Easiest thing to slap together for a demo and dress up as innovation. A much more impressive presentation would be their plans for rolling out a hydrogen fuel generation and distribution network. That, would be something.

  • Hey. I am working as a graphic designer for a website [casinospieles.de]. You know. Everything becomes simpler, more attractive and understandable to the common man. Deposit bonuses are especially attractive. I like my job.
  • Long haul trucking needs to end. It's much more efficient, in both time and resources, to do long haul via train and short to medium haul from centrally located depots to the final destination.

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