Confederation Marine Modellers

Roller Ship 1.       

         The roller ship was an unconventional and unsuccessful ship design of the late nineteenth century, which attempted to propel itself by means of large wheels. Two such vessels were constructed and found to be impractical.
          The principle behind the design was similar to that of the slightly later hydrofoil; by avoiding as much hull contact with the water as possible, the amount of drag could be reduced and – in theory – the vessel could be made to move much faster for a given amount of power. As envisaged by Ernest Bazin, the main hull was lifted out of the water, with large hollow discs attached to each side. These discs would provide the buoyancy of the ship, as well as part of its propulsive power. These wheels were independently driven, with a separate screw lowered into the water from the hull to propel the boat.
          The discs were shaped like a convex lens: they tapered to a point at the edge, like the hulls of ships. Indeed, when pushed forwards through the water, without any rotational movement, they behaved exactly like a conventional hull. When rotated, however, they proved in testing to be much more efficient, due to the propulsive force being expended both vertically and horizontally. It was found that the overall speed ought to be roughly two-thirds the speed of rotation of the wheels.
          The first and only operational roller ship, the 280-ton Ernest-Bazin, was designed by the French inventor Ernest Bazin after five years of model-based tests and launched at Saint-Denis on August 19, 1896. It had three pairs of discs ten-metres in diameter and three-metres thick; each pair was independently driven by a fifty-horsepower engine and, under normal conditions, about one-third submerged. The main hull was supported just above the axes of these discs, 4m above the sea level, and was about 40 by 12 metres; it contained the engines as well as the crew housing. Bazin predicted the ship would be able to make about 18 knots, perhaps pushing 20 at full power, but hoped that a ship of similar build with the power that could propel a conventional ship to 20 knots could achieve speeds of 47 knots. Many observers estimated, however, that the design was theoretically capable of 32 knots based on the size and power of the wheels and on early model tests. This compared very favourably with contemporary steamships; the fast ocean liners of the day could manage slightly over twenty knots, whilst high-powered military Torpedo boat destroyers could break thirty. The fuel consumption was also anticipated to be sharply reduced; a full-scale vessel was predicted by Bazin to consume only 800 tons of coal for a thirty-knot Atlantic crossing, compared to 3000–4000 tons for a 22-knot crossing by a conventional liner.
           The Ernest-Bazin was a test ship, meant to test the design. If its test succeeded, a roller ship with 4 disc pairs was to be constructed to transport passengers from Le Havre to New York City. However, when preparing to cross the English Channel in early 1897, the design was found to be unworkable. When the rollers rotated through the water, each one brought up so much water adhering to it that it was braked heavily, causing them to rotate much more slowly than anticipated and with a much greater consumption of fuel.
          Bazin died on January 21, 1898, a few weeks after announcing he had overcome these problems, and revealing plans for an ocean-going liner, with four pairs of discs, which would be able to cross from Le Havre to New York in sixty hours.
          The idea briefly resurfaced in the 1930s, with proposed designs for a large "tricycle" liner appearing in Modern Mechanix in 1934, and a much smaller four-wheeled boat in Popular Science in 1935.     

Nautical lore - The Roller ship

Roller Ship 2.

In 1897, Frederick Knapp, a lawyer in Prescott, Ontario, designed another type of vessel which he termed a "roller boat"; this was essentially a single long cylinder which sat in the water. An engine inside, supported on rotating bearings, caused the outer surface of the cylinder to rotate, acting as a paddle wheel. However, it suffered much the same flaws as Bazin's design; the hypothetical "mile a minute" was, in practice, no more than five knots, and the vessel proved difficult to control. After trials, the prototype was tied up at the harbour for ten years, before being sold as scrap.