Trompe

For the illusionary art technique, see Trompe-l'œil.
A Catalan forge trompe

A trompe is a water-powered gas compressor, commonly used before the advent of the electric-powered compressor. A trompe is somewhat like an airlift pump working in reverse.

Trompes were used to provide compressed air for bloomery furnaces in Catalonia[1] and the USA.[2] The presence of a trompe is a signature attribute of a Catalan forge, a type of bloomery furnace.

In Paris they were used for a time to compress air to drive the city's first electricity generation scheme, and in the Alps they were used in France and Switzerland to provide compressed air for early alpine tunnels.[3]

Trompes can be enormous. At Canadian Hydro Developers' Ragged Chute facility in New Liskeard, Ontario, water falls down a shaft 351 feet (107 m) deep and 9 ft (2.7 m) across to generate compressed air for mining equipment and ventilation.[4]

Operation

Trompes are very simple devices. A vertical pipe or shaft goes down to a separation chamber, a pipe coming away from that chamber allows the water to exit at a lower level, and another pipe coming from the chamber allows the compressed air to exit as needed.

Water rushing down the vertical pipe falls through a constriction. The constriction produces a lower pressure because of the venturi effect, and an external port allows air to be sucked in. The air forms bubbles in the pipe. As the bubbles go down the pipe they are pressurized proportionally to the hydraulic head, which is the height of the column of water in the pipe. The compressed air rises to the top of the separation chamber. The separation chamber has a compressed-air takeoff pipe, and the compressed air can be used as a power source.

The energy of the falling water entrains the air into the water, but that is not the energy that pressurizes the air, as is often incorrectly claimed. That energy is solely a derivative of the hydraulic head.

Large trompes were often situated at high waterfalls so that plenty of power was available. The Ragged Chute plant on the Montreal River near the town of Cobalt, Ontario, is a trompe and tourist attraction. It is now owned by Canadian Hydro and exists beside a modern hydroelectric plant.[4]

Compressed air from a trompe is at the temperature of the water, and its partial pressure of water vapor is that of the dewpoint of the water's temperature. If the water is cool, the compressed air can be made very dry by passing it through pipes that are warmer than the water. Often, ordinary outside air can warm the pipes enough to produce very dry, cool compressed air.

Today, trompes constructed of plastic pipe are being used to provide aeration for mine drainage treatment. In this application, mine water is used to drive the trompe and the compressed air that is generated is used to oxygenate the mine water and to drive off excess dissolved carbon dioxide that may be present thus raising the pH of the water being treated.[5]

See also

References

  1. The Catalan process for the direct production of malleable iron and its spread to Europe and the Americas PDF by Estanislau Tomàs (retrieved March 23, 2010)
  2. Bond, A. Russel (1939). The Story of Mechanics. New York: P. F. Collier & Son Corporation. pp. 90–93.
  3. Bell, Louis (1901). Electric Power Transmission: A Practical Treatise for Practical Men. New York: Electrical World and Engineer.
  4. 1 2 Ragged Chutes
  5. Leavitt, Bruce R. (2011); Aeration of Mine Water Using a TROMPE; 2011 West Virginia Surface Mine Drainage Task Force Symposium

External links

This article is issued from Wikipedia - version of the 8/18/2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.