Thermic siphons (alt. thermic syphons) are heat-exchanging elements in the firebox or combustion chamber of some steam boiler and steam locomotive designs. As they are directly exposed to the radiant heat of combustion, they have a high evaporative capacity relative to their size. By arranging them near-vertically, they also have good water circulation by means of the thermosyphon effect.

A Nicholson syphon, before installation in the firebox
Thermic syphons in the boiler of Bulleid's Leader class. They are particularly visible in the Leader boiler, as the firebox is dry-walled, rather than water-jacketed.
Czechoslovak State Railways 498.1 featured thermic siphons in the firebox

History

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The concept of a self-circulating thermic syphon began with stationary boilers and relatively simple Galloway tubes. They reached their peak in steam locomotive boilers, where the complexity of a syphon was justified by the need for a compact and lightweight means of increasing boiler capacity. One of the best-known forms for locomotives was invented by the English locomotive engineer John L. Nicholson who received a US patent.[1][2][3] The Nicholson form combined a complex shape that provided more heating area in a given space than did the earlier tubes and funnels, yet was simple to make, being folded from a single sheet of steel.

Flued boilers

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Galloway tubes in a Lancashire boiler

The first high-pressure boilers were a large drum with a central flue, such as the Cornish and Lancashire boilers. Simple tubes were inserted across this flue.[4]

See also

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References

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  1. ^ US 1679051, "Thermic Siphon for Locomotives" 
  2. ^ Thermic siphons
  3. ^ Semmens, PWB; Goldfinch, AJ (2000). How Steam Locomotives Really Work. Oxford University Press. p. 44. ISBN 978-0-19-860782-3.
  4. ^ Hills, Richard L. (1989). Power from Steam. Cambridge University Press. pp. 134–135. ISBN 0-521-45834-X.
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