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The three L-1 0-8-8-0 Mallet-type steam locomotives of the Erie Railroad, built in July 1907 by ALCO, and numbered 2600, 2601 and 2602 (ALCo construction numbers 42269, 42270 and 42271 respectively); were unique in that they were the only articulated camelback locomotives ever built.
When built in 1907, they were the largest steam locomotives in the world as the locomotive itself weighed 410,000 pounds (260 tons). The L-1 Class was also called the "Angus" Type in homage to Angus Sinclair, who was the publisher of Railway & Locomotive Engineering, a leading trade journal. A rarely seen photograph of #2602 shows his name under the windows on the cab sides.
The use of an intercepting valve allowed the locomotive to be used in simple or single expansion steam capacity. This meant that if desired, high pressure steam could be supplied to the front and rear cylinder groups for additional power at the cost of exhausting the boiler of steam pressure quicker.
These locomotives were built for "pusher" service, especially on the heavy grades of the Erie Railroads' Susquehanna Division over Gulf Summit on the Pennsylvania and New York State border; and these locomotives primarily operated between Port Jervis, NY, and Susquehanna, PA.
Pusher service is defined where additional locomotives are/were added to the rear of a train of which has its normal complement of locomotives on the lead end. The pusher locomotives then assist by helping push the train up the grade. Also, they helped control the stresses on the couplers and draft gear, and by which lowered the amount of broken coupler knuckles on a heavy train. In the modern diesel electric locomotive era, this pusher service could be compared to Distributed Power Units or DPU's. (However, DPU's are unmanned and electronically controlled by the lead locomotive.) Steam powered pusher locomotives were obviously manned, as the electronic technology did not exist in the early 1900s. Even diesel electric locomotives assigned to pusher service throughout the 1960s and 1970s were manned, as the technology was just budding for efficient unmanned and remote of locomotives.
Returning to the L-1; and contrary to popular belief, they were not fired by two firemen, [1] but actually a single fireman. Most camelback locomotives, even the smaller switchers, have large fireboxes of the Wootten design for the use of anthracite coal. This is because to use anthracite, which is harder and slower burning than bituminous coal, a larger grate area is needed to achieve the same amount of heating as a smaller firebox that was suitable for bituminous coal use.
As such, a conventional single door placed in the center of a firebox backhead (and as typically used on bituminous coal fired locomotives) would leave "blind spots" in the rear corners against the backhead of the larger Wootten fireboxes. This would induce uneven heating (cool spots) as the back corners would not receive coal nor could the fire be kept as even as it would be in the grate center because of being inaccessible by rake or shovel. Uneven heating in fireboxes was not only inefficient, but led to uneven expansion and contraction of the steel and would lead to shortened life of the firebox or even catastrophic failure.
Throughout the entire industry, an evenly banked fire over the entire fire grate is recognized as efficient firing for a steam locomotive (and stationary coal fired boilers). Installing two doors on the backheads of Wootten fireboxes alleviated this issue, and so a single fireman could tend to the fire on the extra wide fireboxes. Also, as the Erie L-1's were designed from the beginning as slow pusher locomotives, with an operating speed of 15 miles per hour and a maximum speed of 20 miles per hour, [2] "fast and furious" coal shoveling was not necessary as it would be on a fast passenger locomotive (and as depicted in the movies), a single fireman was all that was required on the L-1 Class.
(see diagram)
In 1921 the locomotives were sent out by Erie to be rebuilt by Baldwin Locomotive Works, as 2-8-8-2s with more conventionally rear located cabs, Standard DuPont Type B automatic mechanical stokers, Schmidt Type A superheaters, and Elasco feedwater heaters to make them more efficient. Also, the set of front driver cylinders was changed from slide valve type to piston valve type.
But eventually the evolution of steam locomotive design surpassed even what could be achieved by this rebuild. The L-1's were retired in December 1930 and subsequently scrapped. This retirement was due partially to age and wear of the boiler and original running gear. When held in comparison; the cost of re-boilering the locomotives as opposed to purchasing an all new locomotive, the cost savings was not substantial enough to warrant a second rebuild.
A steam locomotive is a locomotive that provides the force to move itself and other vehicles by means of the expansion of steam. It is fuelled by burning combustible material to heat water in the locomotive's boiler to the point where it becomes gaseous and its volume increases 1,700 times. Functionally, it is a steam engine on wheels.
Main components found on a typical steam locomotive include:
In a steam engine, the firebox is the area where the fuel is burned, producing heat to boil the water in the boiler. Most are somewhat box-shaped, hence the name. The hot gases generated in the firebox are pulled through a rack of tubes running through the boiler.
A camelback locomotive is a type of steam locomotive with the driving cab placed in the middle, astride the boiler. Camelbacks were fitted with wide fireboxes which would have severely restricted driver visibility from the normal cab location at the rear.
A fireman, stoker or watertender is a person whose occupation it is to tend the fire for the running of a boiler, heating a building, or powering a steam engine. Much of the job is hard physical labor, such as shoveling fuel, typically coal, into the boiler's firebox. On steam locomotives the title fireman is usually used, while on steamships and stationary steam engines, such as those driving saw mills, the title is usually stoker. The German word Heizer is equivalent and in Dutch the word stoker is mostly used too. The United States Navy referred to them as watertenders.
The London and North Eastern Railway Gresley Classes A1 and A3 locomotives represented two distinct stages in the history of the British 4-6-2 "Pacific" steam locomotives designed by Nigel Gresley. They were designed for main line passenger services and later express passenger services, initially on the Great Northern Railway (GNR), a constituent company of the London and North Eastern Railway after the amalgamation of 1923, for which they became a standard design. The change in class designation to A3 reflected the fitting to the same chassis of a higher pressure boiler with a greater superheating surface and a small reduction in cylinder diameter, leading to an increase in locomotive weight. Eventually all of the A1 locomotives were rebuilt, most to A3 specifications, but no. 4470 was completely rebuilt as Class A1/1.
The Leader was a class of experimental 0-6-0+0-6-0T steam locomotive, produced in the United Kingdom to the design of the innovative engineer Oliver Bulleid. The Leader was an attempt to extend the life of steam traction by eliminating many of the operational drawbacks associated with existing steam locomotives. It was intended as a replacement for the ageing fleet of M7 class tank engines still in operation on the Southern Railway (SR). Design work began in 1946 and development continued after the nationalisation of the railways in 1948, under the auspices of British Railways (BR).
The NZR Q class was an important steam locomotive class not only in the history of New Zealand's railway network but also in worldwide railways in general. Designed by New Zealand Government Railways' (NZR) Chief Mechanical Engineer A. L. Beattie and ordered from the Baldwin Locomotive Works in 1901, they were the first locomotives in the world to be built with the wheel arrangement of 4-6-2. This wheel arrangement came to be known as the Pacific type after the voyage the completed locomotives had to make across the Pacific Ocean to New Zealand. A few instances of the 4-6-2 wheel arrangement are known to have existed prior to 1901, but these were all reconstructions of locomotives that were originally built with a different wheel arrangement, thereby making the thirteen members of the Q class the first "true" Pacifics in the world. The Pacific style went on to become arguably the most famous wheel arrangement in the world.
The Wootten firebox is a type of firebox used on steam locomotives. The firebox was very wide to allow combustion of anthracite waste, known as "culm". Its size necessitated unusual placement of the crew, examples being camelback locomotives. The Wootten firebox made for a free-steaming, powerful locomotive, and the cheap fuel burned almost smokelessly; the combination made for an excellent passenger locomotive, and many camelbacks operated in this service.
A mechanical stoker is a mechanical system that feeds solid fuel like coal, coke or anthracite into the furnace of a steam boiler. They are common on steam locomotives after 1900 and are also used on ships and power stations. Known now as a spreader stoker they remain in use today especially in furnaces fueled by wood pellets or refuse.
A triplex locomotive was a steam locomotive that divided the driving force on its wheels by using three pairs of cylinders to drive three sets of driving wheels. Any such locomotive will inevitably be articulated. All triplex locomotives built were of the Mallet type, but with an extra set of driving wheels under the tender. The concept was extended to locomotives with four, five or six sets of drive wheels. However, these locomotives were never built, except for one quadruplex locomotive in Belgium.
The Norfolk and Western M, M1 and M2 Classes were a series of 4-8-0 steam locomotives owned and operated by the Norfolk and Western Railway (N&W). The M Classes were primarily assigned to pull the N&W's mainline freight trains, but following the introduction of the railway's Y Class 2-8-8-2's, the M Classes were reassigned to short line freight service.
The D55 class was a class of 2-8-0 steam locomotives built by Clyde Engineering for the New South Wales Government Railways in Australia.
A shell or flued boiler is an early and relatively simple form of boiler used to make steam, usually for the purpose of driving a steam engine. The design marked a transitional stage in boiler development, between the early haystack boilers and the later multi-tube fire-tube boilers. A flued boiler is characterized by a large cylindrical boiler shell forming a tank of water, traversed by one or more large flues containing the furnace. These boilers appeared around the start of the 19th century and some forms remain in service today. Although mostly used for static steam plants, some were used in early steam vehicles, railway locomotives and ships.
The Pennsylvania Railroad's class J28 comprised two experimental 2-6-2 "Prairie" type steam locomotives.
Boilers for generating steam or hot water have been designed in countless shapes, sizes and configurations. An extensive terminology has evolved to describe their common features. This glossary provides definitions for these terms.
A launch-type, gunboat or horizontal multitubular boiler is a form of small steam boiler. It consists of a cylindrical horizontal shell with a cylindrical furnace and fire-tubes within this.
The South African Railways Class MG 2-6-6-2 of 1911 was a steam locomotive from the pre-Union era in Transvaal.
The Pennsylvania Railroad's class K29s comprised a single experimental 4-6-2 "Pacific" type steam locomotive. Constructed by Alco-Schenectady, it was given road number 3395. Although only one demonstrator was constructed, the K29s would become the basis for the highly successful K4s Pacifics and L1s Mikados. The lone example spent most of its life on the PRR's Pittsburgh division main line and was retired around 1929.
The L&YR 2-10-0 was a prospective design for a class of 2-10-0 steam locomotives on the Lancashire and Yorkshire Railway. Initial designs were made by George Hughes between 1913 and 1914, but none of the class were built. If they had been, these would have been the UK's first 10-coupled locomotives in regular service.