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BMW Shows Off World's Fastest Hydrogen Car

Posted by ryuzaki0 on from the saving-some-power-units dept.

loid_void writes "According to Reuters and others BMW unveiled the world's fastest hydrogen-powered car at the Paris auto show on Wednesday, dubbed the H2R, capable of exceeding 300 kilometers (185 miles) per hour. The are also working with Shell on hydrogen dispensing stations. '"Our drive toward the future is called hydrogen," BMW management board member Burkhard Goeschel said before the tarp slowly slipped off the teardrop-shaped body of the sleek race car.' All I want to know, does it come with an iPod hookup?"

10 of 400 comments (clear)

  1. Re:Isn't - by davejenkins · · Score: 4, Informative

    Does anyone remember the Hindenberg?

    While the hydrogen contents of the Hindenberg certainly didn't help matters, that wasn't the main problem. The skin of the Zeppelin had been cured and doped with an aluminum oxide compound that is pretty much identical to solid rocket fuel (although this flammable quality wasn't known at the time).

    Go back and watch the film again-- the skin ignites and burns quickly-- rather than the whole structure exploding/popping like a ping in a balloon.

    --

    davejenkins.com |

  2. Re:Isn't - by at_18 · · Score: 5, Informative

    Does anyone remember the Hindenberg?

    Hydrogen was not the cause for the Hindenberg disaster. Hydrogen burns without any visibile flame or smoeke. In the Hindenberg case, what burned was the external paint, which had a chemical composition quite similar to nitroglicerine (it wasn't known at the time).

    Even more sad, most the deaths from that disaster were people jumping down while the ship was still in the air. Most of those who remained in the airship survived.

  3. Re:Isn't - by csguy314 · · Score: 5, Informative

    Actually, with the hydrogen being in stable fuelcells,

    Ahhh, good old /., where people feel compelled to post before rtfa. The car doesn't use fuel cells for the engine. It's an hydrogen combustion engine.
    The article says that BMW is researching fuel cells as well, but it's concentrating on combustion engines "because the sum total of its features and characteristics offers the largest number of advantages and benefits all in one."

    --
    This is left as an exercise for the reader.
  4. Re:boom by caldfyr · · Score: 4, Informative

    What the no-sense-of-humor poster above you was trying to say is that hydrogen burns cooler than gasolene and does so clearly (invisibly). What he failed to consider is that while hydrogen dissipates rapidly and needs a dense concentration to ignite, there is a perfectly dense mixture of it in the fuel cell. ANYTHING will explode when supplied with enough energy, even a hydrogen fuel cell. Quite a bit of energy is transferred by going from really fast to not moving in 0.25 seconds, and a lot of energy is transferred when you're rear ended by a tractor trailer at the red light. Just because it may be safer doesn't mean it is perfect. No need for anyone to go hydrogen fanboi on any /.ers

  5. Re:next step... by Depris · · Score: 5, Informative

    Somebody already invented a car that was cheap and lasted a lot longer than conventional parts. He died broke when all the car companies lobbied against him because of the economic consequences.

    Their was also a movie by Francis Ford Coppla about him with Jeff Bridges:

    http://www.imdb.com/title/tt0096316/

    --
    I'll make you a deal. You pray to God for help and I'll stop the moment he shows up.
  6. hydrogen dissipates faster by SuperBanana · · Score: 4, Informative
    A car accident could spell disaster if not properly contained...Or am I wrong?

    In the unlikely event that the car's structure was intruded enough to damage the tank, the leaking hydrogen would escape upwards and dissipate extremely rapidly. This makes it rather difficult to be ignited by, say, sparking from electrics or hot components in the engine compartment. There is no environmental impact and no cleanup- the hydrogen harmlessly dissipates up into the environment.

    In a car accident with gasoline, the gasoline pools on the ground and vapors are heavier than air. That makes them very easy to ignite. Gasoline(especially with MTBE) is cancerous and must be cleaned up, and it takes a while to do so because it's so easily ignited.

    Hydrogen also requires a much higher fuel/air ratio; ie there has to be a higher concentration.

    The main safety problem with hydrogen is that it is molecularly so small that hoses and seals are very hard to make for it. A balloon full of hydrogen would deflate even faster than one filled with Helium...

    The REAL problem with hydrogen as a transport fuel is (repeat after me, kids!)...

    HYDROGEN IS A NET LOSS FUEL. IT TAKES MUCH MORE ENERGY TO PRODUCE THAN YOU GET BURNING IT.

    Oh, and the fact that the main method of production cited by our really smart President is- surprise- natural gas! Well, guess what folks- you gotta use chemicals to get the H2 out of the complex hydrocarbon of LNG, and you gotta put those leftover Carbon (and other elements) into something. Expect to see hydrogen plants which dump lots of waste in the form of toxic catalysts and leftover byproducts. Or just toss it up a smokestack and make it the problem of whoever is 5,000 miles away.

    --
    Please help metamoderate.
  7. Re:Actually by MtViewGuy · · Score: 5, Informative

    While the coating compenents were potentially reactive, they were separated by a layer of material that should have inhibited the reaction from starting.

    Alas, the Wikipedia article forgot one aspect: the mounting bolts for the canvas covering were made of steel, which allowed a static discharge to move through the canvas covering VERY quickly. Because the Hindenberg had flown near a thunderstorm just before the explosion, there was a buildup of static electricity on the entire airship and when it discharged the mounting bolts transmitted the static discharge, causing a large portion of the canvas covering to literally explode on the initial explosion.

    That's why on the short-lived airship Graf Zeppelin II (LZ 130), the Zeppelin engineers switched to bronze mounting bolts for the canvas covering, so the static discharge would not be transmitted through the mounting bolts.

    By the way, the Zeppelin company actually produced an internal report about the Hindenberg explosion and that report cited issues with the potential flammability of the canvas covering doping compound. Alas, that report was quickly surpressed by the Nazi government for various reasons.

  8. Re:Survivors? by AlinuxNCSU · · Score: 5, Informative

    Google "hindenburg survivors" perhaps? I mean, come on, there are links on the first results page! They might not give you the number of survivors, but they definitely confirm that there were some.

    For the lazy:

    http://www.airships.net

    http://www.vidicom-tv.com/hindenburg/making_of.htm

    http://www.authentichistory.com/audio/1930s/histor y/19370506_Hindenberg_Disaster_Herb_Morrison-short .html

    -Alex

  9. Re:boom by pyrrhonist · · Score: 4, Informative
    Maybe it would have gently settled to the ground, giving people enough time to think about not panicing and jump to their deaths.

    I'd just like to point out that 66% of the people on board the Hindenburg survived.

    I'm not saying that more people couldn't have been saved, I'm just pointing out that the number of survivors is a lot higher than most people think.

    --
    Show me on the doll where his noodly appendage touched you.
  10. Re:boom by trburkholder · · Score: 4, Informative
    From: Google Cache of Van Vorst and Bain theory
    Furthermore, the substance used to coat the cotton skin -- a process known as "doping" which makes the fabric taut and more durable -- was extremely flammable. A combination of iron oxide, cellulose acetate and aluminum powder, "the total mixture might well serve as a respectable rocket propellant," Van Vorst said.
    Iron oxide and aluminum powder are commonly referred to as thermite and are used for producing molten iron at temperatures well in excess of aluminum's 660 C melting point. However, there is a rebuttal to this argument which indicates that the paint lacked the requisite proportions for the thermite reaction.