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2-4-0
Under the Whyte notation for the classification of steam locomotives, represents the wheel arrangement of two leading wheels on one axle, four powered and coupled driving wheels on two axles and no trailing wheels. The notation 2-4-0T indicates a tank locomotive of this wheel arrangement, on which its water and fuel is carried on board the engine itself, rather than in an attached tender. Overview The 2-4-0 configuration was developed in the United Kingdom in the late 1830s or early 1840s as an enlargement of the 2-2-0 and 2-2-2 types, with the additional pair of coupled wheels giving better adhesion. The type was initially designed for freight haulage. One of the earliest examples was the broad-gauge GWR Leo Class, designed by Daniel Gooch and built during 1841 and 1842 by R. & W. Hawthorn, Leslie and Company; Fenton, Murray and Jackson; and Rothwell, Hick and Rothwell. Because of its popularity for a period with English railways, noted railway author C. Hamilton Ellis ...
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Beyer, Peacock And Company
Beyer, Peacock and Company was an English railway locomotive manufacturer with a factory in Openshaw, Manchester. Founded by Charles Beyer, Richard Peacock and Henry Robertson, it traded from 1854 until 1966. The company exported locomotives, and machine tools to service them, throughout the world. Founders German-born Charles Beyer had undertaken engineering training related to cotton milling in Dresden before moving to England in 1831 aged 21. He secured employment as a draughtsman at Sharp, Roberts and Company's Atlas works in central Manchester, which manufactured cotton mill machinery and had just started building locomotives for the Liverpool and Manchester Railway. There he was mentored by head engineer and prolific inventor of cotton mill machinery, Richard Roberts. By the time he resigned 22 years later he was well established as the company's head engineer; he had been involved in producing more than 600 locomotives. Richard Peacock had been chief engineer of the M ...
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LSWR 0298 Class
The London and South Western Railway (LSWR) 0298 Class or Beattie Well Tank is a class of British steam locomotive. They are s, originally built between 1863 and 1875 for use on passenger services in the suburbs of London, but later used on rural services in South West England. Out of a total production of 85, two locomotives have been preserved in an operational condition. History In 1850, the LSWR decided that the London suburban passenger services should be operated using small tank locomotives. To determine the most suitable type, Joseph Hamilton Beattie, the LSWR Mechanical Engineer, prepared a series of designs for six-wheeled well tank locomotives, each of which incorporated one or more differences from the previous class. A small quantity of each was produced: between 1852 and 1859, 26 were built, to six different designs. These were the ''Tartar'' and ''Sussex'' classes of 1852, the '' Chaplin'' and ''Minerva'' classes of 1856, the '' Nelson'' class of 1858 and ...
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Joseph Hamilton Beattie
Joseph Hamilton Beattie (1808-1871) was a locomotive engineer with the London and South Western Railway. Joseph Beattie was born in Ireland on 12 May 1808. He was educated in Belfast and initially apprenticed to his father, a Derry architect. He moved to England in 1835 to serve as an assistant to Joseph Locke on the Grand Junction Railway and from 1837 on the London and Southampton Railway. After the line opened he became the carriage and wagon superintendent at Nine Elms and succeeded John Viret Gooch as locomotive engineer on 1 July 1850. Locomotives Initially he designed a series of singles, but the weight of the Southampton and Salisbury expresses led to the development of 2-4-0s. He continued to develop the design over the next 20 years. In addition he developed a series of 85 2-4-0 well tanks and 0-6-0s. His locomotives were amongst the most efficient of the time. Three of his most famous locomotive design, the 0298 Class 2-4-0 well tanks, were in service for 88 year ...
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GWR Leo Class
The Great Western Railway Leo Class was a class of broad gauge steam locomotives for goods train work. This class was introduced into service between January 1841 and July 1842, and withdrawn between September 1864 and June 1874. These locomotives were the first for the railway with coupled wheels as they were designed as goods locomotives, but they later found use on passenger trains too. All the class were altered to s. The locomotives were built by three different workshops, each with its own naming convention. The first three came from R and W Hawthorn and Company, who named them after strong animals. The next three were named after volcanoes by Fenton, Murray and Jackson, while the final twelve came from Rothwell and Company carrying the names of the twelve houses of the zodiac The zodiac is a belt-shaped region of the sky that extends approximately 8° north or south (as measured in celestial latitude) of the ecliptic, the apparent path of the Sun across the ...
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March Engineering
March Engineering was a Formula One constructor and manufacturer of customer racing cars from the United Kingdom. Although only moderately successful in Grand Prix competition, March racing cars enjoyed much better success in other categories of competition, including Formula Two, Formula Three, IndyCar and IMSA GTP sportscar racing. 1970s March Engineering began operations in 1969. Its four founders were Max Mosley, Alan Rees, Graham Coaker and Robin Herd. The company name is an acronym of their initials. They each had a specific area of expertise: Mosley looked after the commercial side, Rees managed the racing team, Coaker oversaw production at the factory in Bicester, Oxfordshire, and Herd was the designer. The history of March is dominated by the conflict between the need for constant development and testing to remain at the peak of competitiveness in F1 and the need to build simple, reliable cars for customers in order to make a profit. Herd's original F1 plan w ...
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Whyte Notation
Whyte notation is a classification method for steam locomotives, and some internal combustion locomotives and electric locomotives, by wheel arrangement. It was devised by Frederick Methvan Whyte, and came into use in the early twentieth century following a December 1900 editorial in ''American Engineer and Railroad Journal''. The notation was adopted and remains in use in North America and the United Kingdom to describe the wheel arrangements of steam locomotives (in the latter case also for diesel and electric locomotives), but for modern locomotives, multiple units and trams it has been supplanted by the UIC system in Europe and by the AAR system (essentially a simplification of the UIC system) in North America. Structure of the system Basic form The notation in its basic form counts the number of leading wheels, then the number of driving wheels, and finally the number of trailing wheels, numbers being separated by dashes. For example, a locomotive with two lead ...
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2-2-2
Under the Whyte notation for the classification of steam locomotives, 2-2-2 represents the wheel arrangement of two leading wheels on one axle, two powered driving wheels on one axle, and two trailing wheels on one axle. The wheel arrangement both provided more stability and enabled a larger firebox than the earlier 0-2-2 and 2-2-0 types. This configuration was introduced in 1834 on Robert Stephenson's ' Patentee locomotive' but it was later popularly named Jenny Lind, after the Jenny Lind locomotive which in turn was named after the popular singer. They were also sometimes described as Singles, although this name could be used to describe any kind of locomotive with a single pair of driving wheels. Equivalent classifications Other equivalent classifications are: * UIC classification: 1A1 (also known as German classification and Italian classification) *French classification: 111 *Turkish classification: 13 *Swiss classification: 1/3 History The 2-2-2 configuration appears ...
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Crewe Type (locomotive)
The Crewe type locomotive was a series of designs of steam locomotive by Alexander Allan and William Buddicom during the 1840s. It was widely copied elsewhere, particularly in France. History During the early 1840s Alexander Allan and William Buddicom of the Grand Junction Railway (GJR) created the design incorporating inclined outside cylinders and a double frame. It was built due to combat the frequent failure of crank axles on contemporary inside cylinder locomotive designs. The earliest examples were built by Buddicom at Chartreux for the Chemins de Fer de l'Ouest in 1844 where the type became known as 'Le Buddicom'. The first British examples were built at Crewe Works in 1845 by the GJR and from 1846 by the GJR's successor, the London and North Western Railway (LNWR), with a 2-2-2 wheel arrangement for passenger classes and 2-4-0 for freight. The first of these GJR 2-2-2 locomotives, ''Columbine'', is preserved at the Science Museum A science museum is a museum d ...
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2-2-0
Under Whyte notation for the classification of steam locomotives, 2-2-0 represents the wheel arrangement of two leading wheels on one axle, two powered driving wheels on one axle, and no trailing wheels. This configuration, which became very popular during the 1830s, was commonly called the Planet type after the first locomotive, Robert Stephenson's '' Planet'' of 1830. Equivalent classifications Other equivalent classifications are: * UIC classification: 1A (also known as German classification and Italian classification) *French classification: 110 *Turkish classification: 12 *Swiss classification: 1/2 History Great Britain After early experience with the 0-2-2 configuration on the Liverpool and Manchester Railway, Robert Stephenson decided to build a locomotive with cylinders inside the frames, for which a 2-2-0 was preferable. The first such locomotive was ''Planet'', built in 1830 and the company went on to build a further eighteen examples for the railway. In 1835 fi ...
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Wheel Arrangement
In rail transport, a wheel arrangement or wheel configuration is a system of classifying the way in which wheels are distributed under a locomotive. Several notations exist to describe the wheel assemblies of a locomotive by type, position, and connections, with the adopted notations varying by country. Within a given country, different notations may also be employed for different kinds of locomotives, such as steam, electric, and diesel powered. Especially in steam days, wheel arrangement was an important attribute of a locomotive because there were many different types of layout adopted, each wheel being optimised for a different use (often with only some being actually "driven"). Modern diesel and electric locomotives are much more uniform, usually with all axles driven. Major notation schemes The main notations are the Whyte notation (based on counting the wheels), the AAR wheel arrangement notation (based on counting either the axles or the bogies), and the UIC classific ...
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Steam Locomotive
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 (usually coal, oil or, rarely, wood) 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. In most locomotives, the steam is admitted alternately to each end of its cylinders, in which pistons are mechanically connected to the locomotive's main wheels. Fuel and water supplies are usually carried with the locomotive, either on the locomotive itself or in a tender coupled to it. Variations in this general design include electrically-powered boilers, turbines in place of pistons, and using steam generated externally. Steam locomotives were first developed in the United Kingdom during the early 19th century and used for railway transport until the middle of the 20th century. Richard Trevith ...
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LSWR 0298 Class Beattie Well Tank 4
The London and South Western Railway (LSWR, sometimes written L&SWR) was a railway company in England from 1838 to 1922. Originating as the London and Southampton Railway, its network extended to Dorchester and Weymouth, to Salisbury, Exeter and Plymouth, and to Padstow, Ilfracombe and Bude. It developed a network of routes in Hampshire, Surrey and Berkshire, including Portsmouth and Reading. The LSWR became famous for its express passenger trains to Bournemouth and Weymouth, and to Devon and Cornwall. Nearer London it developed a dense suburban network and was pioneering in the introduction of a widespread suburban electrified passenger network. It was the prime mover of the development of Southampton Docks, which became an important ocean terminal as well as a harbour for cross channel services and for Isle of Wight ferries. Although the LSWR's area of influence was not the home of large-scale heavy industry, the transport goods and mineral traffic was a major activity ...
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