Sectional diagram of a 'wet back' boiler The general layout is that of a squat horizontal cylinder. One or more large cylindrical furnaces are in the lower part of the boiler shell.
Above this is a large number of small-diameter. Gases and smoke from the furnace pass to the back of the boiler, then return through the small tubes and up and out of the chimney.
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The ends of these multiple tubes are capped by a, outside the boiler shell. The Scotch boiler is a, in that hot pass through tubes set within a tank of water. As such, it is a descendant of the earlier, and like the Lancashire it uses multiple separate furnaces to give greater heating area for a given furnace capacity. It differs from the Lancashire in two aspects: a large number of small-diameter tubes (typically 3 or 4 inches (76 or 102 mm) diameter each) are used to increase the ratio of heating area to cross-section. Secondly, the overall length of the boiler is halved by folding the gas path back on itself. Rear face of the boiler of steam tug, showing the stays supporting the combustion chambers The far end of the furnace is an enclosed box called the combustion chamber which extends upwards to link up with the firetubes.
The front wall of the combustion chamber is supported against steam pressure by the tubes themselves. The rear face is by rod stays through the rear shell of the boiler. Above the combustion chamber and tubes is an open steam collecting space. Larger long rod stays run the length of the boiler through this space, supporting the ends of the boiler shell. With multiple furnaces, there is a separate combustion chamber for each furnace.
A few small boilers did connect them into one chamber, but this design is weaker. A more serious problem is the risk of reversing the draught, where exhaust from one furnace could blow back and out of the adjacent one, injuring the stokers working in front of it. 'Wilberforce' boiler in section The first recorded boiler of comparable form was used in a railway locomotive, 's 'Wilberforce' class of 1830.
This had a long cylindrical boiler shell similar to his earlier ', but with the return flue replaced by a number of small firetubes, as had been demonstrated so effectively by Stephenson with his ' a year earlier. The novel feature of an entirely internal combustion chamber was used. Unlike the later Scotch boiler though, this was self-supported by its own stays, rather than using stays through the walls of the boiler shell.
This allowed the entire assembly of outer tubeplate, furnace tube, combustion chamber and firetubes to all be removed from the boiler shell as one unit, simplifying manufacture and maintenance. Although a valuable feature, this became impractical for larger diameter chambers that would require the support of the shell. Variants [ ] Number of furnaces [ ] Typical practice for ships was to have two furnaces in each boiler. Smaller boilers might only have one, larger boilers commonly had three.
The limitation in boiler size was the amount of work each stoker could do, firing one furnace per man. Larger ships (meaning anything above the smallest) would have many boilers. As with the, the furnace was often corrugated for strength. Various makers had their own particular ways of making these corrugations, leading to their classification for maintenance purposes under the broad titles of,, Morrison,, Purves or Brown. Wet back and dry back [ ]. Cross and longitudinal section of a four-furnace boiler The typical design is the 'wet back', where the rear face of the combustion chamber is water-jacketed as a heating surface. The 'dry back' variation has the rear of the combustion chamber as an open box, backed or surrounded only by a sheetmetal jacket.
This simplifies construction, but also loses much efficiency. It is only used for small boilers where capital cost outweighs fuel costs. Although the Scotch boiler is nowadays rarely the primary steam generator on a ship, small dry-back designs such as the Minipac are still encountered, for supporting secondary demands whilst alongside in port with the main boilers cold.
One interesting variant of the dry-back design has been a patent for burning ash-prone fuels. The rear of the combustion chamber is used as an access point for an ash separator, removing the ash before the small-diameter tubes. Double-ended [ ] The double-ended design places two boilers back-to-back, removing the rear wall of the boiler shell. The combustion chambers and firetubes remain separate. This design saves some structural weight, but it also makes the boiler longer and more difficult to install into a ship.
For this reason they were not commonly used, although back-to-back arrangements of multiple single-ended boilers were common. Inglis [ ] The ' modification adds an extra combustion chamber where an additional single large flue returns from the rear to the front of the boiler. Flow through the multiple tubes is thus from front to back, and so the exhaust is at the rear.
Multiple furnaces would share a single combustion chamber. The major advantage of the Inglis is the extra heating area it adds, for a comparable shell volume, of perhaps 20%. Surprisingly this is not from the additional combustion chamber, but from lengthening the narrow firetubes. These can now run the full length of the boiler shell, rather than just the rather shorter distance from the inner combustion chamber to the front tubeplate. Despite this advantage, it is rarely used.
Use in ships [ ]. Willamette Iron and Steel Works advertisement noting large boiler orders. The Scotch marine boiler achieved near-universal use throughout the heyday of steam propulsion, particularly for the most highly developed piston engines such as the. It lasted from the end of the low-pressure in the mid-19th century through to the early 20th century and the advent of with high-pressure such as the. Large or fast ships could require a great many boilers. The had 29 boilers: 24 double-ended and 5 smaller single-ended.
The larger boilers were 15 feet 9 inches (4.80 m) diameter and 20 feet (6.1 m) long, the smaller were 11 feet 9 inches (3.58 m) in length. All had three corrugated Morrison furnaces of 3 feet 9 inches (1.14 m) diameter, 159 furnaces in total, and a working pressure of 215 pounds per square inch (1,480 kPa). Shipboard working examples [ ] Numerous Scotch boilers are in use on ships as of 2011, and new boilers can be built to replace life-expired ones. Examples of preserved steam boats employing Scotch boilers include: • Steam tug, Mayflower's boiler was recently removed for restoration and could easily be seen in close-up. [ ] • Baltimore, of 1906, at the, is the oldest working steam tug in the US.
• Steamship based in, UK, is fully operational and has two oil-fired Scotch boilers. • Steam-powered icebreaker, operating on two coal-fired boilers • Steam-powered, based in Lowestoft or Great Yarmouth, Fully operational coal-fired Scotch boiler.
• The steam tug Kerne built 1913. Operated out of Liverpool by the Steam Tug Kerne Preservation Society. One coal-fired wet back Scotch marine boiler with two furnaces. Max working pressure 180 pounds per square inch (1,200 kPa). • The steam yacht Louise built 1902.
Operating on Lake Geneva, Wisconsin by Gage Marine Corporation. One diesel-fired Scotch marine boiler powering a double-expansion steam engine, in excursion passenger service. [ ] • The steam ship Trafik built 1892 in Stockholm Sweden by Bergsunds Mekaniska Verkstad as a passenger and freight ship on the Swedisk lake and with homeport. The machinery and its boiler are the original ones made for the ship in Stockholm. References [ ] Wikimedia Commons has media related to. • ^ Stokers' Manual (1912 ed.)., via HMSO, via Eyre & Spottiswoode. Zone Of The Enders Artbook Pdf Download.
Railways: Mechanical Engineering. • Malek, Mohammad A.
McGraw Hill Professional.., p. Harris (1974). Model Boilers and Boilermaking. •, p.244 • Naval Marine Engineering Practice. • Fire-tube boiler, with ash removal •. University of Western Ontario.
(1961) [1953]. Marine Steam Boilers (2nd ed.). • McCluskie, Tom (1998). Anatomy of the Titanic.
Marine Steam Boilers: Fourth Edition deals with the involved concepts, parts and construction, usage and maintenance, and the future direction of steam boilers. The book covers topics such as the history of steam boilers; theoretical development of steam boilers; and the materials and methods used in their construction. Also covered are the types of boilers - the tank-type boiler, which includes horizontal and vertical boilers; water tube boilers such as the Foster Wheeler boiler, Babcock & Wilcox boilers, and combustion engineering boilers; and dual-fired boilers. The text is recommended for marine engineers who would like to know more about boilers, its different types and the advantages of each, and their operation.