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Magnetic Levitating Trains Get Go-Ahead In Japan

Posted by CmdrTaco on from the futureworld-is-now dept.

An anonymous reader writes "They've been on the drawing board for 40 years but the politicos have finally approved routes for the 500kph maglev trains to replace bullet trains." I wonder if they'll let me test out maglev rollerblades on the track.

10 of 425 comments (clear)

  1. Population Density by Daryen · · Score: 5, Interesting

    This sort of project makes a lot of sense in a place like Japan where there are a few places with very dense population separated by rural areas.

    America is one of very few places in the world with sprawling suburbs that make transportation projects like this unfeasible. That doesn't mean we shouldn't try, but it will be exponentially more difficult than for us than for a country like Japan, or even most Eastern European countries.

    1. Re:Population Density by Anonymous Coward · · Score: 4, Interesting

      Most, if not 95%+ of all rail traffic in the US is in small, highly populated corridors - think BosWash or through Californian cities. If this was a viable alternative to air travel, I think most folk would hop on it in an instant to avoid the hassles of modern air travel.

    2. Re:Population Density by MozeeToby · · Score: 4, Interesting

      America is one of very few places in the world with sprawling suburbs that make transportation projects like this unfeasible.

      Not necissarily true. I think the important thing is to get people thinking of a maglev more the way they think of airplanes than the way they think of trains. Americans in general are very resistant to rail travel for some reason, mostly because the only experience they have with it is a friend of a friend who rode Amtrak once. Why not have non-stop routs between the major cities of each region (LA, Chicago, Houston, Miami, New York). Put the Maglev terminals at the airport and consider them another part of the air transportation network.

      Alternatively, put maglev lines between airports that are close together but still see lots of traffic. I'm thinking something like Mineapolis to Chicago since that is what I am familiar with. Generally, if you want to fly into or out of Minneapolis, it is cheaper to go through Chicago. It would save a lot of time, money, and polution if you could ride the maglev between them. If it worked out and was profitable, it would also be a powerful proof of concept for longer lines in the future.

    3. Re:Population Density by QuantumRiff · · Score: 4, Interesting

      actually, in the last amtrak bill that passed, their was money in there to extend the high speed rail between chicago and milwaukee (one of the most reliable and most profitable routes for amtrak, airport to airport). They are going to extend it to Madison, then up to St. Paul Not Maglev, but 100+mph trains, with limited stops. Even without Maglev, the diesel electric trains are the most efficient and environmentally friendly way to move cargo or people around.

      --

      What are we going to do tonight Brain?
  2. Efficiency by ILikeRed · · Score: 5, Interesting

    Anyone know how the energy usage per passenger compares with a large jet?

    --
    I have come to a conclusion that one useless man is a shame, two is a law firm, and three or more is a congress -J Adams
  3. Oh Fast by Anonymous+Monkey · · Score: 4, Interesting

    About seven years ago I would have thought this was the epoch of cool. Now I think it's cool, but not even in the top 100 of cool civics works projects. Once I started riding my bike to work fast doesn't impress me like it once did. On the other hand Copenhagen has redid it's infrastructure to have protected bike lanes all over the city and residential districts are close to work. Now that's cool.

    --
    We are the Borg...
  4. Re:good idea, maybe the island is to small for it by butterflysrage · · Score: 5, Interesting

    except being far apart you have the problem of getting the track actually built. While I don't know much of the Russian frontier, or much of rural US... I know there is a whole LOT of empty land in Canada, rocky, swampy, forest covered nothing. Plowing a train route through the Canadian Shield is not just difficult, in many places it's pretty damn impossible. The hardest rocks in the world cover most of eastern Canada, and despite not being a steep as the Japanese Alps, the sheer hardness of the rocks would make blasting/tunneling prohibitively expensive. On the flip side of that, one would need MASSIVE bridges to cover many of the dips and rivers in Quebec and Ontario.... It is just all around cheaper to fly over it all.

    The Tokyo/Nagoya run was likely picked as a first attempt as it is fairly flat and there is an absurd amount of travel between the two centers. At about 20 million people in the greater Tokyo area, and over 8 in the area around Nagoya, these are two of the thee largest cities centers in the country... add the two together and you have almost as many people as there are in ALL of Canada.

    They have the demand, money, and geology for it.

    --
    the preceding post was not spell checked... suck it.
  5. Re:The US already has a maglev by coppice · · Score: 5, Interesting

    The one from Pu Dong airport in Shanghai has no vibration problems. In fact its super smooth at 430km/h. However, they have used an enormously thick concrete structure to be stiff enough to achieve that.

  6. Re:good idea, maybe the island is to small for it by Ralph+Spoilsport · · Score: 5, Interesting
    It is just all around cheaper to fly over it all.

    Now, perhaps, but until when? Oil spiked to almost $150 a barrel this year. If it goes up to $150 and STAYS THERE, the airline industry as we know it will simply disappear.

    you had damn well better have a VERY effective train system installed BEFORE that happens.

    RS

    --
    Shoes for Industry. Shoes for the Dead.
  7. We shouldn't try by jmichaelg · · Score: 5, Interesting

    America is one of very few places in the world with sprawling suburbs that make transportation projects like this unfeasible. That doesn't mean we shouldn't try, but it will be exponentially more difficult than for us than for a country like Japan, or even most Eastern European countries.

    The 'exponentially more difficult' part is why we shouldn't try to use rail to solve transportation problems. We're just too spread out. Rail only connects a very narrow corridor of people, and moreover, fixes their location indefinitely. If cities re-configure, the rail can't be reconfigured without lots of money.

    If, on the other hand, we reconfigured cars so that they were capable of forming dynamic trains, we could get a lot of the benefit of trains without the drawbacks. For instance, trains move lots of vehicles more cheaply than a single vehicle because the locomotive bears the cost of pushing air out of the way. That not inconsiderable expense rises exponentially with speed. In a train, it's spread out over the vehicles following the locomotive but in a car, the single car bears the entire expense.

      If cars drafted behind each other, they could share that savings that trains have. For that to work, it would require the cars to be able to communicate between themselves to sort out common destinations and speeds.

    In practice, you'd jump on the highway per normal and your car would start querying other cars how far down the road they're going. When it found another car that was headed the same way for more than a mile or so, they'd sort out who would be lead car and who would draft and arrange themselves accordingly. The person in the lead car would continue to drive, but all the cars trailing him would be tucked in within an inch or two of each other. Their car's computers would be telegraphing to each other what the lead car was doing in terms of accelerating/decelerating so that they would do the same at the same time. When someone's destination exit arrived, the car would telegraph to the following cars that it was peeling off and the other cars would momentarily disconnect while the car pulled out of the train and then the remaining cars would re-connect. In the case of the leader, second car up would become the leader. Tail car peeling off wouldn't affect the train at all.

    For a car to be allowed to join a train, it would have to carry a digitally signed certificate saying when the last time it was checked out for safety so members of the train would be confident that one of the cars wouldn't fall apart while they're within inches of it and that it was able to stop itself within a standard distance. If you didn't want to join a train, or you joined a train that made you uncomfortable for some reason, you'd turn off the feature and just drive yourself. But if you're a commuter, letting someone else drive the same route day after day, has a lot of appeal. A common commute of 20 miles would give you 20 minutes to yourself to do whatever while someone else drove.

    With reaction times removed and cars bunched up within inches of each other, highways can carry more cars at higher speeds. Currently, we slow down when the highways get congested because we have to account for reaction times to propagate down the road. With the cars handling reaction time issues, they can speed up quite a bit.

    Add a little intelligence to our cars and suddenly our highways become much greener.