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Sir Henry Fowler
Sir Henry Fowler, (29 July 1870 – 16 October 1938) was an English railway engineer, and was chief mechanical engineer of the Midland Railway and subsequently the London, Midland and Scottish Railway. Biography Fowler was born in Evesham, Worcestershire, on 29 July 1870. His father, also named Henry, was a furniture dealer, and his family were Quakers. He was educated at Prince Henry's Grammar School, Evesham (now Prince Henry's High School, Evesham), and at Mason Science College (which became the University of Birmingham) between 1885 and 1887 where he studied metallurgy. He served an apprenticeship under John Aspinall at the Lancashire and Yorkshire Railway (L&YR)'s Horwich Works from 1887 to 1891. Fowler was a elected as a Whitworth Exhibitioner in 1891. He then spent four years in the Testing Department under George Hughes, whom he succeeded as head of the department. Between 1895 and 1900, he was gas engineer of the L&YR, moving on 18 June 1900 to the Midland Ra ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
Evesham
Evesham () is a market town and parish in the Wychavon district of Worcestershire, in the West Midlands region of England. It is located roughly equidistant between Worcester, Cheltenham and Stratford-upon-Avon. It lies within the Vale of Evesham, an area comprising the flood plain of the River Avon, which has been renowned for market gardening. The town centre, situated within a meander of the river, is subjected regularly to flooding. The 2007 floods were the most severe in recorded history. The town was founded around an 8th-century abbey, one of the largest in Europe, which was destroyed during the Dissolution of the Monasteries, with only Abbot Lichfield's Bell Tower remaining. During the 13th century, one of the two main battles of England's Second Barons' War took place near the town, marking the victory of Prince Edward, who later became King Edward I; this was the Battle of Evesham. History Evesham is derived from the Old English ''homme'' or ''ham'', and ''Eof'' ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
John Aspinall (engineer)
Sir John Audley Frederick Aspinall (25 August 1851 – 19 January 1937) was an English mechanical engineer who served as Locomotive Superintendent of the Great Southern and Western Railway (GS&WR) of Ireland and Lancashire and Yorkshire Railway (L&YR) of England. He introduced vacuum brakes to his locomotives in Ireland, a trend which was followed in Britain, and designed several locomotives. He was also president of the Institution of Mechanical Engineers and of the Institution of Civil Engineers. Biography Aspinall was born on 25 August 1851 in Liverpool to a Roman Catholic judge. He attended the Roman Catholic boarding school of Beaumont College, Berkshire before being apprenticed to engineers John Ramsbottom and Francis Webb of the London and North Western Railway in 1868. He was sent by Webb to the United States of America in 1872 where he was greatly impressed by the larger loading gauge in use there. In 1875, he moved to the Great Southern and Western Railway of ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
Double-heading
In railroad terminology, double heading indicates the use of two locomotives at the front of a train, each operated individually by its own crew. The practice of triple-heading involves the use of three locomotives. The practice of multi-heading involves the use of multiple locomotives and so on. Double heading is most common with steam locomotives, but is also practised with diesel locomotives. It is not strictly the same practice as two or more diesel or electric locomotives working ' in multiple' (or 'multiple-working'), where both (or all) locomotives are controlled by a single driver in the cab of the leading locomotive. Advantages Double heading is practised for a number of reasons: * In the UK it was usually to gain traction on steep inclines, twice the amount of driven wheels - twice the amount of grip. * The need for additional motive power when a single locomotive is unable to haul the train due to uphill grades, excessive train weight, or a combination of the two. ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
4-4-0
4-4-0 is a locomotive type with a classification that uses the Whyte notation for the classification of steam locomotives by wheel arrangement and represents the arrangement: four leading wheels on two axles (usually in a leading bogie), four powered and coupled driving wheels on two axles, and a lack of trailing wheels. Due to the large number of the type that were produced and used in the United States, the 4-4-0 is most commonly known as the American type, but the type subsequently also became popular in the United Kingdom, where large numbers were produced.White, John H., Jr. (1968). ''A history of the American locomotive; its development: 1830-1880''. New York: Dover Publications, pp. 46-. Almost every major railroad that operated in North America in the first half of the 19th century owned and operated locomotives of this type. The first use of the name ''American'' to describe locomotives of this wheel arrangement was made by ''Railroad Gazette'' in April 1872. Prior to ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
Compound Locomotive
A compound locomotive is a steam locomotive which is powered by a compound engine, a type of steam engine where steam is expanded in two or more stages. The locomotive was only one application of compounding. Two and three stages were used in ships, for example. Compounding became popular for railway locomotives from the early 1880s and by the 1890s were becoming common. Large numbers were constructed, mostly two- and four-cylinder compounds, in France, Germany, Austria, Hungary, and the United States. It declined in popularity due to maintenance issues and because superheating provided similar efficiencies at lower cost. Nonetheless, compound Mallets were built by the Norfolk and Western Railway right up to 1952. Introduction In the usual arrangement for a compound engine the steam is first expanded in one or two high-pressure ''(HP)'' cylinders, then having given up some heat and lost some pressure, it exhausts into a larger-volume low-pressure ''(LP)'' cylinder, (or two, - or ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
Bridge Stress Committee
The Bridge Stress Committee was appointed in 1923 by the UK Department of Scientific and Industrial Research under Sir Alfred Ewing, to investigate stresses in railway bridges, especially as regards the effects of moving loads. Its report, published in 1928, was very influential in British locomotive design as it enabled larger multi-cylinder locomotive classes. Background The increased weight of express trains in the United Kingdom during the first quarter of the twentieth century required larger, six-coupled locomotives, but new designs were being limited by the weight restrictions imposed on many underline bridges. On most mainlines this was restricted to no more than on any axle. However, engineers were becoming increasingly aware of the significance of ‘hammer blow’ rather than ’deadweight’ in determining the safe loads for such bridges. Committee A committee of was established in 1923, funded jointly by the UK government and the railway companies, to carry out invest ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
Railways Act 1921
The Railways Act 1921 (c. 55), also known as the Grouping Act, was an Act of Parliament enacted by the British government and intended to stem the losses being made by many of the country's 120 railway companies, by "grouping" them into four large companies dubbed the " Big Four". This was intended to move the railways away from internal competition, and retain some of the benefits which the country had derived from a government-controlled railway during and after the Great War of 1914–1918. The provisions of the Act took effect from the start of 1923. History The British railway system had been built up by more than a hundred railway companies, large and small, and often, particularly locally, in competition with each other. The parallel railways of the East Midlands and the rivalry between the South Eastern Railway and the London, Brighton and South Coast Railway at Hastings were two examples of such local competition. During the First World War the railways were under st ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
James Anderson (mechanical Engineer)
James Edward Anderson, CBE (3 April 1871 – 15 January 1945) was a mechanical engineer of the Midland Railway and later the London, Midland and Scottish Railway and had a great influence on the latter's adoption of the former's conservative locomotive policies. Career Born in 1871, Anderson served an apprenticeship with the Great North of Scotland Railway (GNoSR). He worked for Sharp Stewart and Company, Dübs and Company and the Glasgow and South Western Railway (GSWR), before becoming Assistant Chief Draughtsmant of Robert Stephenson and Company, Robert Stephenson Ltd of Darlington. Midland railway In April 1903, Anderson moved to the Midland Railway (MR) at Derby as a draughtsman. He replaced J.W. Smith when Smith left for Great Central Railway, and was also given responsibility for the Locomotive Works in the absence of Henry Fowler (engineer), Henry Fowler. During Anderson's time at Derby, he helped design the Midland Railway 990 Class, 990 Class 4-4-0. Superheater, S ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
World War I
World War I (28 July 1914 11 November 1918), often abbreviated as WWI, was one of the deadliest global conflicts in history. Belligerents included much of Europe, the Russian Empire, the United States, and the Ottoman Empire, with fighting occurring throughout Europe, the Middle East, Africa, the Pacific, and parts of Asia. An estimated 9 million soldiers were killed in combat, plus another 23 million wounded, while 5 million civilians died as a result of military action, hunger, and disease. Millions more died in genocides within the Ottoman Empire and in the 1918 influenza pandemic, which was exacerbated by the movement of combatants during the war. Prior to 1914, the European great powers were divided between the Triple Entente (comprising France, Russia, and Britain) and the Triple Alliance (containing Germany, Austria-Hungary, and Italy). Tensions in the Balkans came to a head on 28 June 1914, following the assassination of Archduke Franz Ferdin ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
Richard Deeley
Richard Mountford Deeley (24 October 1855 – 19 June 1944) was an English engineer, chiefly noted for his five years as Chief Mechanical Engineer (CME) of the Midland Railway. Richard Deeley is recorded as being born in Derby His father had been an accountant with the Midland Railway and Richard attended grammar school in Chester. Career In 1873 he became a pupil of B. Ellington at the Hydraulic Engineering Co in Chester, and two years later he became a pupil of Samuel Waite Johnson at Derby Works. In March 1890 he became chief of the testing department at Derby, then progressed to the position of Inspector of Boilers, Engines and Machinery (March 1893), and to Derby Works Manager in January 1902, adding the post of Electrical Engineer a year later. In July 1903 he also became Assistant Locomotive Superintendent, subsequently replacing Johnson as Locomotive Superintendent on 1 January 1904. Compound locomotives He made significant contributions to compounding, adopting Smi ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
Derby Railway Engineering Society (DRES)
Derby ( ) is a city and unitary authority area in Derbyshire, England. It lies on the banks of the River Derwent in the south of Derbyshire, which is in the East Midlands Region. It was traditionally the county town of Derbyshire. Derby gained city status in 1977, the population size has increased by 5.1%, from around 248,800 in 2011 to 261,400 in 2021. Derby was settled by Romans, who established the town of Derventio, later captured by the Anglo-Saxons, and later still by the Vikings, who made their town of one of the Five Boroughs of the Danelaw. Initially a market town, Derby grew rapidly in the industrial era. Home to Lombe's Mill, an early British factory, Derby has a claim to be one of the birthplaces of the Industrial Revolution. It contains the southern part of the Derwent Valley Mills World Heritage Site. With the arrival of the railways in the 19th century, Derby became a centre of the British rail industry. Derby is a centre for advanced transport manufactu ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
George Hughes (engineer)
George Hughes (9 October 1865 – 27 October 1945) was an English locomotive engineer, and chief mechanical engineer (CME) of the Lancashire and Yorkshire Railway (L&YR) and the London, Midland and Scottish Railway (LMS). Biography George Hughes was born on 9 October 1865 and served a premium apprenticeship at the London and North Western Railway (LNWR) Crewe Works between 1882 and 1886. At the L&YR he started in the test room, and Bulleid notes the L&YR's John Aspinall was most pleased with his work there. He progressed through various positions at the L&YR culminating in achieving in becoming chief mechanical engineer in March 1904. He introduced the L&YR locomotive classification system around 1919. When the L&YR amalgamated into the LNWR in January 1922 he became the CME of the combined group and was appointed the CME of the LMS on its formation at the 1923 grouping. He retired in July 1925 after only two and a half years at the LMS. He was succeeded by Henry Fowle ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
