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81 Hackworth, Timothy
[br]b. 22 December 1786 Wylam, Northumberland, Englandd. 7 July 1850 Shildon, Co. Durham, England[br]English engineer, pioneer in construction and operation of steam locomotives.[br]Hackworth trained under his father, who was Foreman Blacksmith at Wylam colliery, and succeeded him upon his death in 1807. Between 1812 and 1816 he helped to build and maintain the Wylam locomotives under William Hedley. He then moved to Walbottle colliery, but during 1824 he took temporary charge of Robert Stephenson \& Co.'s works while George Stephenson was surveying the Liverpool \& Manchester Railway and Robert Stephenson was away in South America. In May 1825 Hackworth was appointed to the Stockton \& Darlington Railway (S \& DR) "to have superintendence of the permanent (i.e. stationary) and locomotive engines". He established the workshops at Shildon, and when the railway opened in September he became in effect the first locomotive superintendent of a railway company. From experience of operating Robert Stephenson \& Co.'s locomotives he was able to make many detail improvements, notably spring safety valves. In 1827 he designed and built the locomotive Royal George, with six wheels coupled and inverted vertical cylinders driving the rear pair. From the pistons, drive was direct by way of piston rods and connecting rods to crankpins on the wheels, the first instance of the use of this layout on a locomotive. Royal George was the most powerful and satisfactory locomotive on the S \& DR to date and was the forerunner of Hackworth's type of heavy-goods locomotive, which was built until the mid-1840s.For the Rainhill Trials in 1829 Hackworth built and entered the locomotive Sans Pareil, which was subsequently used on the Bol ton \& Leigh Railway and is now in the Science Museum, London. A working replica was built for the 150th anniversary of the Liverpool \& Manchester Railway in 1980. In 1833 a further agreement with the S \& DR enabled Hackworth, while remaining in charge of their locomotives, to set up a locomotive and engineering works on his own account. Its products eventually included locomotives for the London, Brighton \& South Coast and York, Newcastle \& Berwick Railways, as well as some of the earliest locomotives exported to Russia and Canada. Hackworth's son, John Wesley Hackworth, was also an engineer and invented the radial valve gear for steam engines that bears his name.[br]Further ReadingR.Young, 1975, Timothy Hackworth and the Locomotive, Shildon: Shildon "Stockton \& Darlington Railway" Silver Jubilee Committee; orig. pub. 1923, London (tends to emphasize Hackworth's achievements at the expense of other contemporary engineers).L.T.C.Rolt, 1960, George and Robert Stephenson, London: Longmans (describes much of Hackworth's work and is more objective).E.L.Ahrons, 1927, The British Steam Railway Locomotive 1825–1925, London: The Locomotive Publishing Co.PJGR -
82 Stanier, Sir William Arthur
[br]b. 27 May 1876 Swindon, Englandd. 27 September 1965 London, England[br]English Chief Mechanical Engineer of the London Midland \& Scottish Railway, the locomotive stock of which he modernized most effectively.[br]Stanier's career started when he was Office Boy at the Great Western Railway's Swindon works. He was taken on as a pupil in 1892 and steady promotion elevated him to Works Manager in 1920, under Chief Mechanical Engineer George Churchward. In 1923 he became Principal Assistant to Churchward's successor, C.B.Collett. In 1932, at the age of 56 and after some forty years' service with the Great Western Railway (GWR), W.A.Stanier was appointed Chief Mechanical Engineer of the London Midland \& Scottish Railway (LMS). This, the largest British railway, had been formed by the amalgamation in 1923 of several long-established railways, including the London \& North Western and the Midland, that had strong and disparate traditions in locomotive design. A coherent and comprehensive policy had still to emerge; Stanier did, however, inherit a policy of reducing the number of types of locomotives, in the interest of economy, by the withdrawal and replacement of small classes, which had originated with constituent companies.Initially as replacements, Stanier brought in to the LMS a series of highly successful standard locomotives; this practice may be considered a development of that of G.J.Churchward on the GWR. Notably, these new locomotives included: the class 5, mixed-traffic 4–6–0; the 8F heavy-freight 2–8–0; and the "Duchess" 4–6–2 for express passenger trains. Stanier also built, in 1935, a steam-turbine-driven 4–6–2, which became the only steam-turbine locomotive in Britain to have an extended career in regular service, although the economies it provided were insufficient for more of the type to be built. From 1932–3 onwards, and initially as part of a programme to economize on shunting costs by producing a single-manned locomotive, the LMS started to develop diesel shunting locomotives. Stanier delegated much of the responsibility for these to C.E.Fairburn. From 1939 diesel-electric shunting locomotives were being built in quantity for the LMS: this was the first instance of adoption of diesel power on a large scale by a British main-line railway. In a remarkably short time, Stanier transformed LMS locomotive stock, formerly the most backward of the principal British railways, to the point at which it was second to none. He was seconded to the Government as Scientific Advisor to the Ministry of Production in 1942, and retired two years later.[br]Principal Honours and DistinctionsKnighted 1943. FRS 1944. President, Institution of Mechanical Engineers 1941.Bibliography1955, "George Jackson Churchward", Transactions of the Newcomen Society 30 (Stanier provides a unique view of the life and work of his former chief).Further ReadingO.S.Nock, 1964, Sir William Stanier, An Engineering Biography, Shepperton: Ian Allan (a full-length biography).John Bellwood and David Jenkinson, 1976, Oresley and Stanier. A Centenary Tribute, London: HMSO (a comparative account).C.Hamilton Ellis, 1970, London Midland \& Scottish, Shepperton: Ian Allan.PJGRBiographical history of technology > Stanier, Sir William Arthur
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83 развитие сельских областей
развитие сельских областей
—
[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
rural development
Any course destined to promote economic growth, modernization, increase in agricultural production and the creation of a framework in which to fulfill primary needs, such as education, health and supply of water in the rural areas. The attainment of such objectives depends in general on the type of administrative systems proposed for the various programmes and on the national political situation as regards, for instance land tenure, agrarian reform, the disbursement of assistance and food policy. (Source: GREMES)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]Тематики
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Русско-английский словарь нормативно-технической терминологии > развитие сельских областей
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