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343 lines
17 KiB
Plaintext
343 lines
17 KiB
Plaintext
Info pulled from the Usenet. Air (atmosphere) Railway Systems.
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Today and Yesterday
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-------------------------
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The ultimate responsibility for this thread :-) belongs to George
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Medhurst (1759-1827), of England. During a period of a few years
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about 1810, he invented three distinct forms of air-propelled
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transport. None of them was implemented during his lifetime;
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but all of them saw use eventually, reaching their greatest extent
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in the reverse order of their original invention.
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Medhurst's first method involved moving air through a tube a few
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inches in diameter, pushing a capsule along it; this simple idea
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was the pneumatic dispatch tube. Next he realized that if the same
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system was built much larger, it could carry passengers (or freight
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items larger than letters); it was natural to run the vehicle on
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tracks, and so this became known since the vehicle would be large
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enough to require tracks, this became known as a pneumatic railway.
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But would anyone actually want to ride along mile after mile inside
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an opaque pipe? Not likely. So he then thought of having only a
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piston moving within the pipe, somehow dragging along a vehicle
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outside it. He proposed several versions of this idea; in most of
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them the vehicle ran on rails, so this became known as an atmospheric
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railway (though a distinction between that term and the pneumatic
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railway was not always observed). The key feature of all versions
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of the system was a longitudinal valve: some sort of flexible flap
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running the length of the pipe, which would be held closed by air
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pressure except when the piston was actually passing. Medhurst
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did try to raise capital to implement this system, but failed.
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Now, while the first operable steam locomotive was built about 1804,
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steam-powered trains did not see regular use for passengers for some
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25 years after that. It was in the 1830's and 1840's that the steam
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railway was shown to be practical in both engineering and financial
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senses.
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But the same technical developments that made possible the practical
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steam railway also made the atmospheric railway, if not certainly
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practical, at least worth a try. And it offered the prospect of
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considerable advantages. Since the trains wouldn't have to carry
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their prime mover, they would be lighter; therefore the track could
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be built cheaper, and the trains' performance would be better.
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The trains wouldn't trail smoke wherever they went (and into the
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passenger cars in particular), and they would also be quiet.
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And if one section of the route was hilly and required more motive
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power, all that were needed would be more or larger pumping stations
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along that section; no need to add extra locomotives. In short,
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very much the same advantages that electricity gave a few decades
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later. (Plus one more: a derailed train would tend to be kept near
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the track by the pipe and piston.)
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The success of the 1830's railways gave rise to the Railway Mania
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of the 1840's, when interest in railway shares reached absurd levels.
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In that climate the proposers of atmospheric lines could find the
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backing they needed, and four atmospheric lines opened in a period
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of about 3 years. In order of opening, these were:
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* The Dublin & Kingstown, from Kingstown to Dalkey in Ireland,
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1.5 miles long; operated 1844-54.
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* The London & Croydon, from Croydon to Forest Hill in London,
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England, 5 miles, then extended to New Cross for a total
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of 7.5 miles; operated 1846-47.
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* The Paris a St-Germain, from Bois de Vezinet to St-Germain
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in Paris, France, 1.4 miles long; operated 1847-60.
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* The South Devon, from Exeter to Teignmouth in Devonshire,
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England, 15 miles, then extended to Newton (now Newton Abbot),
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20 miles altogether; operated 1847-48.
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I note in passing that while I (as a fan of his) might like Isambard
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Kingdom Brunel to have invented the atmospheric system used on the
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South Devon, it is wrong to say that he did so. He did choose it
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and actively promoted it (well, "actively" is redundant with Brunel).
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It was actually developed by Samuel Clegg and Joseph and Jacob Samuda.
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Both of the longer, if shorter-lived, English lines used atmospheric
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propulsion in both directions of travel, whereas the French and Irish
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lines were built on hills and their trains simply returned downhill
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by gravity. Since all were single-track lines, the one-way system
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simplified the valves needed to let the pistons in and out of the
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pipes at their ends (possibly while traveling at speed).
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All four lines were converted to ordinary steam railways in the end,
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and for the next 130 years the atmospheric system appeared dead.
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For one thing, steam locomotive technology had too much of a head
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start in development over the atmospheric system; steam railways
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might have delays due to engine failure but they never had to shut
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down for 6 weeks while a new design of longitudinal valve was
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installed along the entire length of the route!
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(The valve involved metal and leather parts and a greasy or waxy
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sealant "composition". Although stories were told about rats
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eating the composition, and this probably did happen sometimes,
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it wasn't really a serious thing; the biggest problems in fact
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were freezing and deterioration of the leather, and corrosion
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of the metal parts.)
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Also, the atmospheric system was inflexible, in that if the power
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requirements for a section of route were greater than estimated,
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very little could be done short of splitting the section and adding
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a whole new pumping station. (All the lines used vacuum rather
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than positive pressure in the pipes, which limited the pressure
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differential to about 0.9 atmosphere in practice; but the valve
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designs were marginal anyway and likely wouldn't have stood up
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to greater pressures if they could have been used.)
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What today might be seen as the most serious disadvantage of all,
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the requirement for long interruptions of the motive power at
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junctions, was not so noticeable in those days. If the train
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didn't have enough speed to coast across the gap, well, the
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third-class passengers could always get out and push, or maybe
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there would be a horse conveniently at hand. At some stations
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a small auxiliary pipe was used to advance the train from the
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platform to the start of the main pipe.
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There were many other proposals in those days for atmospheric
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lines, but in view of these early failures, none of them were
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ever built as atmospheric railways. The next atmospheric railway
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to open actually appeared in 1990!
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While the atmospheric railways were vanishing, the first
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pneumatic dispatch tubes were beginning to appear; I'll get
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into that later. But from that start, the pneumatic railway
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idea began to return also. At first these were designed for
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freight. Engineers J. Latimer Clark and T. W. Rammell formed
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the Pneumatic Despatch Company, which built a demonstration tube
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above ground in Battersea in 1861. This line successfully carried
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loads up to 3 tons... and even a few passengers, lying down in
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the vehicles in the 30-inch tunnel! The pressure used was up
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to 0.025 atmosphere, and speeds up to 40 mph were reached.
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The Post Office became interested in the system and had several
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tunnels built for it. They were used from 1863 to 1874, though
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interrupted for a time by the financial crisis of 1866.
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(At this point they decided that the system didn't gain enough time
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to be worth the cost, not to mention the risk of a vehicle becoming
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stuck in the tube. In the 1920's, when electricity was available,
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they returned a driverless trains system, using tunnels of similar
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size to the old pneumatic tubes. This is the Post Office "tube"
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Railway, which continues in use to this day. Such systems also
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exist in Switzerland, which had it first, and in West Germany.)
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Meanwhile, while these lines were moving the mail from the streets
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of London to tunnels underneath, the first underground railways
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were doing the same with passenger traffic. The first section of
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the Metropolitan Railway (from Farringdon, now Farringdon Street,
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to Paddington station) opened in 1863. It was promptly followed
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by extensions, as well as competition in the form of the Metro-
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politan District Railway, a subsidiary that got away. (Their
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routes in central London today form the London Underground's
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Metropolitan, District, Circle, and Hammersmith & City Lines.)
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Now there was no thought of operating the Metropolitan with
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anything but steam locomotives, despite the line being mostly
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in tunnel. Sir John Fowler, who later co-designed the Forth Bridge,
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did have the idea of a steam locomotive where the heat from the fire
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would be retained in a cylinder of bricks, and therefore the fire
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could be put out when traveling in the tunnels. One example of
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this design, later called Fowler's Ghost, was tried in 1862.
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It was thermodynamically absurd: as C. Hamilton Ellis put it,
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"the trouble was that her boiler not only refrained from producing
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smoke, it produced very little steam either".
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In the end both the Met and the District were worked with condensing
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steam locomotives: these emitted smoke as usual, but their exhaust
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steam, while running in tunnels, was directed back into the water
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tanks and condensed. The tanks were drained at the end of the run
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and refilled with cold water.
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So people were not only willing to travel in what amounted to an
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opaque tube after all, but in one filled with smoke at that!
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Why not one *without* smoke? And so the pneumatic railway was
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now tried; but it never got past the demonstration stage.
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The longest line to carry passengers was opened at the Crystal
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Palace in London in 1864. It used a tunnel about 9 by 10 feet,
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1800 feet long. The driving fan was 22 feet across, generating
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about 0.01 atmosphere of pressure -- the larger the tube, the
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lower the pressure you need. The vehicle was a full-size broad
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gauge railway car ringed with bristles; it carried 35 passengers.
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The trip took 50 seconds, thus averaging about 25 mph. Another,
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smaller demonstration line was built at a fair in the US in 1867
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by Alfred Ely Beach.
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Beach then formed the Beach Pneumatic Transit Company, which
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obtained permission to build a freight-carrying pneumatic line
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under Broadway in New York. But what he actually opened in 1870
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was a passenger-carrying pneumatic subway, the only one to
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actually operate under a city street. It was only 312 feet long,
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from Warren Street to Murray Street. The tunnel was 9 feet in
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diameter, and was worked by a single car with a capacity of
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18 passengers.
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Beach tried but failed to get permission to extend the line.
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It closed after a few months, and New York did not get a subway
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again until 1904, when the first Interborough Rapid Transit route
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was opened (from City Hall station along the present Lexington
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Avenue, 42nd Street shuttle, and 7th Avenue lines to, um, initially
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somewhere around 120th Street). This route was electric and so
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have been all its successors.
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Beach's tunnel had been almost forgotten when the crews
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constructing the new subway broke into it in 1912.
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In London, a pneumatic underground line was started *with* permission,
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but construction was never completed. This was the Waterloo and
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Whitehall Railway, which planned to connect Waterloo station to Great
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Scotland Yard, 1/2 mile away, with a 12'9" diameter tunnel passing
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under the Thames. Considering that the Thames Tunnel project of
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Sir Marc Brunel and Isambard Kingdom Brunel -- now now part of
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the Underground's East London Line -- had faced massive technical
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and financial difficulties before its long-delayed completion only
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about 20 years previously, this was no mean undertaking.
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The Waterloo & Whitehall was halted by the financial crisis of 1866;
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and it was never revived. The tunnel had been started from the
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Great Scotland Yard end, and had just reached the river; work on
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the underwater section was beginning. There were other proposals
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for passenger-carrying pneumatic lines, but none saw construction
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in that form. (At least one, under the Mersey at Liverpool, England,
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was eventually opened as an ordinary railway.)
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The next type of underground line to open in London was the Tower
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Subway, which also passed under the Thames. It was a short route,
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just under the river, worked by a small cable car. It opened in
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1870 and was short-lived. (The tunnel served as a footway for a
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while after that, then was taken over for pipes. The Thames Tunnel,
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conversely, had been used first as a footway, then converted to
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railway use.)
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After this time, electric railways began to become practical.
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The next underground line to open was the City & South London,
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now part of the Underground's Northern Line. Its first section
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(from Stockwell to a now disused terminus at King William Street,
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replaced by the present Bank station) opened in 1890. It used
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the new deep-level tube tunnels, with more limited ventilation
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than on the Metropolitan Railway, so steam was out of the question
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in any case. The original plan was for cable haulage, but instead
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the new electric locomotives were tried and the line has always
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been operated electrically. The line was first built with 10'2"
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diameter tunnels, forcing use of rather small cars. (The cars
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also had only tiny windows, on the grounds that there was nothing
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to see -- so they got the nickname of "padded cells".)
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All of the later lines in London, opened from 1900 onwards, were
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built on the same general pattern as the C&SL, with deep-level
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tubes and electric traction -- first by locomotives and then by
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multiple-unit trains. The other tube lines vary from 11'6" to
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12-foot diameter tunnels, and the C&SL was enlarged in the 1920's
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to match. This is still rather small compared to most other
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subways in the world, and is the reason for the distinctive
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shape of the tube trains.
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With the success of the electric lines, the Metropolitan and
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District faced the loss of traffic, and they too were converted
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to elecricity -- at least for the underground sections in central
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London in 1905. The first line of the present New York subway
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system opened in 1904 and this, too, has always used electricity.
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(This was the original Interborough Rapid Transit route, from City
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Hall station along the present Lexington Avenue, 42nd Street shuttle,
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and 7th Avenue lines to, um, somewhere around 120th Street). Beach's
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tunnel had been almost forgotten when the crews constructing the
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new subway broke into it in 1912.
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Meanwhile, the humble original concept of the pneumatic dispatch tube
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continued to develop. The first of them, 1.5 inches in diameter,
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had been built in 1853 by J. Latimer Clark; it connected the
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Electrical and [sic] International Telegraph Company's office in
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Telegraph Street, London, with their branch 675 feet away at the
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Stock Exchange.
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The key invention was J. W. Willmott's double sluice valve of 1870,
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which allowed rapid dispatching of successive capsules. It was also
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possible, as had been done on the pneumatic railways, to use both
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positive pressure (on the order of 1 atmosphere) and vacuum, to
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drive the capsules both ways from a single pumping station. The
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tubes became quite common; many miles were built in various European
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and North American cities. By 1886 London had over 34 miles of them
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for the Post Office's telegraph service alone. In the Paris system
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a person could pay a fee for a message to be sent specifically by
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the tube.
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They were also used within large buildings, and some survive in
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use to this day.
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Finally, in 1990, the Brazilian company Sur Coester stunned the
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world by opening at a fair in Djakarta, Indonesia, a demonstration
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line of their Aeromovel system. This is nothing more nor less
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than an elevated atmospheric railway. The structure is concrete,
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with steel rails and a rectangular concrete air pipe larger than
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those on the 19th century lines. The longitudinal valve is made
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of heavy cloth-reinforced rubber. Computerized remote control
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is used.
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Oh yes.
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Pneumatic dispatch tubes were depicted in the 1985 movie "Brazil";
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Beach's tunnel was depicted, in rather distorted form, in the 1989
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movie "Ghostbusters II"; the modern form of the New York subway
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has been depicted in many movies, notably the 1974 one "The Taking
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of Pelham One Two Three"; but I don't believe the atmospheric or
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pneumatic systems have ever been depicted at work in any movie.
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Clearly this needs to be rectified! :-)
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References.
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Almost all the information in this posting about the pneumatic
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and atmospheric systems comes from one book... "Atmospheric
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Railways: A Victorian Venture in Silent Speed" by Charles Hadfield,
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1967, reprinted 1985 by Alan Sutton Publishing, Gloucester; ISBN
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0-86299-204-4.
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For other topics, I principally consulted "The Pictorial
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Encyclopedia of Railways", 1976 edition, by (C.) Hamilton Ellis,
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Hamlyn Publishing; ISBN 0-600-37585-4; some details came from other
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books or my memory.
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The information about the Djakarta line comes from two postings in
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rec.railroad, one last November by Andrew Waugh quoting the November 24
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issue of "New Scientist" magazine, and the recent one by Russell Day
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citing "Towards 2000".
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--
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Mark Brader "Great things are not done by those
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SoftQuad Inc., Toronto who sit down and count the cost
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utzoo!sq!msb, msb@sq.com of every thought and act." -- Daniel Gooch
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This article is in the public domain.
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