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1 colliery manager
Большой англо-русский и русско-английский словарь > colliery manager
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2 colliery manager
Англо-русский словарь технических терминов > colliery manager
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3 colliery manager
Техника: управляющий угольной шахтой -
4 colliery manager
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5 manager
сущ.сокр. mgr1) упр. менеджер, управляющий, руководитель, директор, заведующий (лицо, осуществляющее руководство людьми, управление процессами, распоряжение имуществом и т. п.; первоначально термин использовался в основном в частном секторе, однако позже стал применяться и в области государственного управления)Syn:See:absentee manager, account manager, accounting manager, accounts manager, acting manager, administrative manager, advertisement manager, advertising agency manager, advertising manager, advertising production manager, alternative asset manager, area manager, artist's manager, asset manager, assistant manager, assistant to manager, bank manager, benefits manager, booking manager, branch manager, branch office manager, brand manager, building manager, business manager, business promotion manager, CDO asset manager, CDO manager, change manager, circulation manager, claim manager, claims manager, comanager, co-manager, combination export manager, commercial manager, commissary manager, compensation manager, contract manager, customer service manager, data processing manager 1), debt manager, department manager, departmental manager, deputy manager, design manager, display manager 1), district manager, divisional manager, economic manager, employee benefits manager, employee welfare manager, employment manager, engineering managers, entrepreneurial manager, estate manager, executive manager, export manager, export sales manager, factory manager, factory services manager, farm manager, field district manager, field sales manager, finance manager, financial manager, first-line manager, fishery manager, floor manager, functional manager, fund manager, general manager, goods manager, group brand manager, group manager, house manager 1), &2, human resources manager, insurance claim manager, insurance claims manager, insurance manager, integrating manager, interim manager, inventory manager, investment manager, joint manager 1), junior manager, knowledge manager 1) а), labor relations manager, labour manager, line manager, list manager 1), &2, location manager, lodging managers, mailing list manager, market manager, marketing administration manager, marketing manager, marketing research manager, material control manager, media manager 1), middle manager, money manager, national sales manager, new product manager, new products manager, non-owning manager, office manager, one-minute manager, operating manager, operations manager, owner-manager, paid manager, parts manager, pension manager, pension plan manager, pension scheme manager, pensions manager, personal manager, personnel manager, planning manager, plant manager, portfolio manager, primary care manager, procurement manager, procurement services manager, product development manager, product group manager, product line manager, product manager, product promotion manager, product sales manager, production control manager 1), production manager, production theatrical manager, professional manager, program manager 1), project manager, promotion manager, promotional manager, property manager, public relations managers, purchasing manager, quality control manager, quality manager, ranch manager, real estate asset manager, regional manager, regional sales manager, relationship manager, research manager, risk manager, run-off manager, safety manager, sales managers, sales promotion manager, security manager, senior manager, service manager, shift manager, special manager, staff manager, 1), stockroom manager, sub-manager, supplies manager, syndicate manager, system manager 1), technical manager, technology manager, top manager, traffic manager, training manager, transportation manager, turnaround manager, unit manager, upper manager, value stream manager, vice-manager, works manager, manager's assistant, manager's fee, manager's job, manager's performance, manager's qualities, Lewis v. BT Investment Managers, Inc., Lewis v. BT Investment Managers, Inc., Lewis v. BT Investment Managers, Inc., Lewis v. BT Investment Managers, Inc., Lewis v. BT Investment Managers, Inc., Lewis v. BT Investment Managers, Inc., Lewis v. BT Investment Managers, Inc., Lewis v. BT Investment Managers, Inc., Lewis v. BT Investment Managers, Inc., Lewis v. BT Investment Managers, Inc., Lewis v. BT Investment Managers, Inc.2) комп. администратор; менеджер; распорядитель; диспетчер (компьютерная программа либо устройство, предназначенное для автоматической организации данных, управления другими устройствами или программами)Syn:See:data processing manager 2), display manager 2), house manager 2), б, knowledge manager 2) б), list manager 3) б), media manager, production control manager 2), program manager 2), 2), system manager 2)3) фин., банк. банк-организатор займа*, управляющий банк* (банк, входящий в группу организаторов размещения нового выпуска ценных бумаг или синдицированного кредита; может быть главным организатором или одним из организаторов)See:
* * *
менеджер, управляющий: 1) лицо, осуществляющее оперативное руководство компанией или ее подразделением; 2) банк - организатор займа, в отличие от простого участника синдиката; может быть главным организатором (лид-менеджер) или одним из организаторов (коменеджер); см. co-manager;* * *руководитель; менеджер; участник синдиката по размещению ценных бумаг (о банке). . Словарь экономических терминов . -
6 manager
1) руководитель; управляющий; директор2) заведующий; администратор4) система управления; устройство управления•-
administrative manager
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airport manager
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assistant manager
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branchwork manager
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branch manager
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bus manager
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business manager
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cell manager
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colliery manager
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database manager
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deputy manager
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engineering manager
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frequency manager
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general manager
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heap manager
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machine-shop manager
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marketing manager
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mine manager
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network manager
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office manager
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operations manager
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personnel manager
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product manager
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production manager
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production-line manager
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program manager
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project manager
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research manager
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rig manager
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sales manager
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sectional manager
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section manager
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stage manager
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system manager
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team manager
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technical manager
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technical operation manager
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tool manager
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unit manager
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works manager -
7 manager of a colliery
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8 управляющий угольной шахтой
Большой англо-русский и русско-английский словарь > управляющий угольной шахтой
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9 Garforth, William Edward
SUBJECT AREA: Mining and extraction technology[br]b. 1845 Dukinfield, Cheshire, Englandd. 1 October 1921 Pontefract, Yorkshire, England[br]English colliery manager, pioneer in machine-holing and the safety of mines.[br]After Menzies conceived his idea of breaking off coal with machines in 1761, many inventors subsequently followed his proposals through into the practice of underground working. More than one century later, Garforth became one of the principal pioneers of machine-holing combined with the longwall method of working in order to reduce production costs and increase the yield of coal. Having been appointed agent to Pope \& Pearson's Collieries, West Yorkshire, in 1879, of which company he later became Managing Director and Chairman, he gathered a great deal of experience with different methods of cutting coal. The first disc machine was exhibited in London as early as 1851, and ten years later a pick machine was invented. In 1893 he introduced an improved type of deep undercutting machine, his "diamond" disc coal-cutter, driven by compressed air, which also became popular on the European continent.Besides the considerable economic advantages it created, the use of machinery for mining coal increased the safety of working in hard and thin seams. The improvement of safety in mining technology was always his primary concern, and as a result of his inventions and his many publications he became the leading figure in the British coal mining industry at the beginning of the twentieth century; safety lamps still carry his name. In 1885 he invented a firedamp detector, and following a severe explosion in 1886 he concentrated on coal-dust experiments. From the information he obtained of the effect of stone-dust on a coal-dust explosion he proposed the stone-dust remedy to prevent explosions of coal-dust. As a result of discussions which lasted for decades and after he had been entrusted with the job of conducting the British coal-dust experiments, in 1921 an Act made it compulsory in all mines which were not naturally wet throughout to treat all roads with incombustible dust so as to ensure that the dust always consisted of a mixture containing not more than 50 per cent combustible matter. In 1901 Garforth erected a surface gallery which represented the damaged roadways of a mine and could be filled with noxious fumes to test self-contained breathing apparata. This gallery formed the model from which all the rescue-stations existing nowadays have been developed.[br]Principal Honours and DistinctionsKnighted 1914. LLD Universities of Birmingham and Leeds 1912. President, Midland Institute 1892–4. President, The Institution of Mining Engineers 1911–14. President, Mining Association of Great Britain 1907–8. Chairman, Standing Committee on Mining, Advisory Council for Scientific and Industrial Research. Fellow of the Geological Society of London. North of England Institute of Mining and Mechanical Engineers Greenwell Silver Medal 1907. Royal Society of Arts Fothergill Gold Medal 1910. Medal of the Institution of Mining Engineers 1914.Bibliography1901–2, "The application of coal-cutting machines to deep mining", Transactions of the Federated Institute of Mining Engineers 23: 312–45.1905–6, "A new apparatus for rescue-work in mines", Transactions of the Institution of Mining Engineers 31:625–57.1902, "British Coal-dust Experiments". Paper communicated to the International Congress on Mining, Metallurgy, Applied Mechanics and Practical Geology, Dusseldorf.Further ReadingGarforth's name is frequently mentioned in connection with coal-holing, but his outstanding achievements in improving safety in mines are only described in W.D.Lloyd, 1921, "Memoir", Transactions of the Institution of Mining Engineers 62:203–5.WKBiographical history of technology > Garforth, William Edward
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10 Buddle, John
SUBJECT AREA: Mining and extraction technology[br]b. 15 November 1773 Kyloe, Northumberland, Englandd. 10 October 1843 Wallsend, Northumberland, England[br]English colliery inspector, manager and agent.[br]Buddle was educated by his father, a former schoolteacher who was from 1781 the first inspector and manager of the new Wallsend colliery. When his father died in 1806, John Buddle assumed full responsibility at the Wallsend colliery, and he remained as inspector and manager there until 1819, when he was appointed as colliery agent to the third Marquis of Londonderry. In this position, besides managing colliery business, he acted as an entrepreneur, gaining political influence and organizing colliery owners into fixing prices; Buddle and Londonderry were also responsible for the building of Seaham harbour. Buddle became known as the "King of the Coal Trade", gaining influence throughout the important Northumberland and Durham coalfield.Buddle's principal contribution to mining technology was with regard to the improvement of both safety standards and productivity. In 1807 he introduced a steam-driven air pump which extracted air from the top of the upcast shaft. Two years later, he drew up plans which divided the coalface into compartments; this enabled nearly the whole seam to be exploited. The system of compound ventilation greatly reduced the danger of explosions: the incoming air was divided into two currents, and since each current passed through only half the underground area, the air was less heavily contaminated with gas.In 1813 Buddle presented an important paper on his method for mine ventilation to the Sunderland Society for Preventing Accidents in Coal-mines, which had been established in that year following a major colliery explosion. He emphasized the need for satisfactory underground lighting, which influenced the development of safety-lamps, and assisted actively in the experiments with Humphrey Davy's lamp which he was one of the first mine managers to introduce. Another mine accident, a sudden flood, prompted him to maintain a systematic record of mine-workings which ultimately resulted in the establishment of the Mining Record Office.[br]Bibliography1838, Transactions of the Natural History Society of Northumberland 11, pp. 309–36 (Buddle's paper on keeping records of underground workings).Further ReadingR.L.Galloway, 1882, A History of Coalmining in Great Britain, London (deals extensively with Buddle's underground devices).R.W.Sturgess, 1975, Aristocrat in Business: The Third Marquis of Londonderry asCoalowner and Portbuilder, Durham: Durham County Local History Society (concentrates on Buddle's work after 1819).C.E.Hiskey, 1978, John Buddle 1773–1843, Agent and Entrepreneur in the NortheastCoal Trade, unpublished MLitt thesis, Durham University (a very detailed study).WK -
11 Hedley, William
[br]b. 13 July 1779 Newburn, Northumberland, Englandd. 9 January 1843 Lanchester, Co. Durham, England[br]English coal-mine manager, pioneer in the construction and use of steam locomotives.[br]The Wylam wagonway passed Newburn, and Hedley, who went to school at Wylam, must have been familiar with this wagonway from childhood. It had been built c.1748 to carry coal from Wylam Colliery to the navigable limit of the Tyne at Lemington. In 1805 Hedley was appointed viewer, or manager, of Wylam Colliery by Christopher Blackett, who had inherited the colliery and wagonway in 1800. Unlike most Tyneside wagonways, the gradient of the Wylam line was insufficient for loaded wagons to run down by gravity and they had to be hauled by horses. Blackett had a locomotive, of the type designed by Richard Trevithick, built at Gateshead as early as 1804 but did not take delivery, probably because his wooden track was not strong enough. In 1808 Blackett and Hedley relaid the wagonway with plate rails of the type promoted by Benjamin Outram, and in 1812, following successful introduction of locomotives at Middleton by John Blenkinsop, Blackett asked Hedley to investigate the feasibility of locomotives at Wylam. The expense of re-laying with rack rails was unwelcome, and Hedley experimented to find out the relationship between the weight of a locomotive and the load it could move relying on its adhesion weight alone. He used first a model test carriage, which survives at the Science Museum, London, and then used a full-sized test carriage laden with weights in varying quantities and propelled by men turning handles. Having apparently satisfied himself on this point, he had a locomotive incorporating the frames and wheels of the test carriage built. The work was done at Wylam by Thomas Waters, who was familiar with the 1804 locomotive, Timothy Hackworth, foreman smith, and Jonathan Forster, enginewright. This locomotive, with cast-iron boiler and single cylinder, was unsatisfactory: Hackworth and Forster then built another locomotive to Hedley's design, with a wrought-iron return-tube boiler, two vertical external cylinders and drive via overhead beams through pinions to the two axles. This locomotive probably came into use in the spring of 1814: it performed well and further examples of the type were built. Their axle loading, however, was too great for the track and from about 1815 each locomotive was mounted on two four-wheeled bogies, the bogie having recently been invented by William Chapman. Hedley eventually left Wylam in 1827 to devote himself to other colliery interests. He supported the construction of the Clarence Railway, opened in 1833, and sent his coal over it in trains hauled by his own locomotives. Two of his Wylam locomotives survive— Puffing Billy at the Science Museum, London, and Wylam Dilly at the Royal Museum of Scotland, Edinburgh—though how much of these is original and how much dates from the period 1827–32, when the Wylam line was re-laid with edge rails and the locomotives reverted to four wheels (with flanges), is a matter of mild controversy.[br]Further ReadingP.R.B.Brooks, 1980, William Hedley Locomotive Pioneer, Newcastle upon Tyne: Tyne \& Wear Industrial Monuments Trust (a good recent short biography of Hedley, with bibliography).R.Young, 1975, Timothy Hackworth and the Locomotive, Shildon: Shildon "Stockton \& Darlington Railway" Silver Jubilee Committee; orig. pub. 1923, London.C.R.Warn, 1976, Waggonways and Early Railways of Northumberland, Newcastle upon Tyne: Frank Graham.See also: Stephenson, GeorgePJGR -
12 Neilson, James Beaumont
SUBJECT AREA: Metallurgy[br]b. 22 June 1792 Shettleston, near Glasgow, Scotlandd. 18 January 1865 Queenshill, Kirkcudbright-shire, Scotland[br]Scottish inventor of hot blast in ironmaking.[br]After leaving school before the age of 14 Neilson followed his father in tending colliery-steam engines. He continued in this line while apprenticed to his elder brother and afterwards rose to engine-wright at Irvine colliery. That failed and Neilson obtained work as Foreman at the first gasworks to be set up in Glasgow. After five years he became Manager and Engineer to the works, remaining there for thirty years. He introduced a number of improvements into gas manufacture, such as the use of clay retorts, iron sulphate as a purifier and the swallow-tail burner. He had meanwhile benefited from studying physics and chemistry at the Andersonian University in Glasgow.Neilson is best known for introducing hot blast into ironmaking. At that time, ironmasters believed that cold blast produced the best results, since furnaces seemed to make more and better iron in the winter than the summer. Neilson found that by leading the air blast through an iron chamber heated by a coal fire beneath it, much less fuel was needed to convert the iron ore to iron. He secured a patent in 1828 and managed to persuade Clyde Ironworks in Glasgow to try out the device. The results were immediately favourable, and the use of hot blast spread rapidly throughout the country and abroad. The equipment was improved, raising the blast temperature to around 300°C (572°F), reducing the amount of coal, which was converted into coke, required to produce a tonne of iron from 10 tonnes to about 3. Neilson entered into a partnership with Charles Macintosh and others to patent and promote the process. Successive, and successful, lawsuits against those who infringed the patent demonstrates the general eagerness to adopt hot blast. Beneficial though it was, the process did not become really satisfactory until the introduction of hot-blast stoves by E.A. Cowper in 1857.[br]Principal Honours and DistinctionsFRS 1846.Further ReadingS.Smiles, Industrial Biography, Ch. 9 (offers the most detailed account of Neilson's life). Proc. Instn. Civ. Engrs., vol. 30, p. 451.J.Percy, 1851, Metallurgy: Iron and Steel (provides a detailed history of hot blast).W.K.V.Gale, 1969, Iron and Steel, London: Longmans (provides brief details).LRDBiographical history of technology > Neilson, James Beaumont
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13 Blackett, William Cuthbert
SUBJECT AREA: Mining and extraction technology[br]b. 18 November 1859 Durham, Englandd. 13 June 1935 Durham, England[br]English mine manager, expert in preventing mine explosions and inventor of a coal-face conveyor.[br]After leaving Durham college of Physical Science and having been apprenticed in different mines, he received the certificate for colliery managers and subsequently, in 1887, was appointed Manager of all the mines of Charlaw and Sacriston collieries in Durham. He remained in this position for the rest of his working life.Frequent explosions in mines led him to investigate the causes. He was among the first to recognize the role contributed by coal-dust on mine roads, pioneered the use of inert rock-or stone-dust to render the coal-dust harmless and was the originator of many technical terms on the subject. He contributed many papers on explosion and was appointed a member of many advisory committees on prevention measures. A liquid-air rescue apparatus, designed by him and patented in 1910, was installed in various parts of the country.Blackett also developed various new devices in mining machinery. He patented a wire-rope socket which made use of a metal wedge; invented a rotary tippler driven by frictional contact instead of gearing and which stopped automatically; and he designed a revolving cylindrical coal-washer, which also gained interest among German mining engineers. His most important invention, the first successful coal-face conveyor, was patented in 1902. It was driven by compressed air and consisted of a trough running along the length of the race through which ran an endless scraper chain. Thus fillers cast the coal into the trough, and the scraper chain drew it to the main gate to be loaded into trams.[br]Principal Honours and DistinctionsKnight of Grace of the Order of St John of Jerusalem. OBE. Honorary MSc University of Durham; Honorary LLD University of Birmingham. Honorary Member, Institution of Mining and Metallurgy. Honorary Member, American Institute of Mining and Metallurgical Engineers. Royal Humane Society Medal.Further ReadingTransactions of the Institution of Mining Engineers (1934–5) 89:339–41.Mining Association of Great Britain (ed.), 1924, Historical Review of Coal Mining London (describes early mechanical devices for the extraction of coal).WKBiographical history of technology > Blackett, William Cuthbert
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14 Blenkinsop, John
[br]b. 1783 near Newcastle upon Tyne, Englandd. 22 January 1831 Leeds, England[br]English coal-mine manager who made the first successful commercial use of steam locomotives.[br]In 1808 Blenkinsop became agent to J.C.Brandling, MP, owner of Middleton Colliery, from which coal was carried to Leeds over the Middle-ton Waggonway. This had been built by Brandling's ancestor Charles Brandling, who in 1758 obtained an Act of Parliament to establish agreements with owners of land over which the wagon way was to pass. That was the first railway Act of Parliament.By 1808 horse haulage was becoming uneconomic because the price of fodder had increased due to the Napoleonic wars. Brandling probably saw the locomotive Catch-Me- Who-Can demonstrated by Richard Trevithick. In 1811 Blenkinsop patented drive by cog-wheel and rack rail, the power to be provided preferably by a steam engine. His object was to produce a locomotive able to haul a substantial load, while remaining light enough to minimize damage to rails made from cast iron which, though brittle, was at that date the strongest material from which rails could be made. The wagonway, formerly of wood, was relaid with iron-edge rails; along one side rails cast with rack teeth were laid beside the running surface. Locomotives incorporating Blenkinsop's cog-wheel drive were designed by Matthew Murray and built by Fenton Murray \& Wood. The design was developed from Trevithick's to include two cylinders, for easier starting and smoother running. The first locomotive was given its first public trial on 24 June 1812, when it successfully hauled eight wagons of coal, on to which fifty spectators climbed. Locomotives of this type entered regular service later in the summer and proved able to haul loads of 110 tons; Trevithick's locomotive of 1804 had managed 25 tons.Blenkinsop-type locomotives were introduced elsewhere in Britain and in Europe, and those upon the Kenton \& Coxlodge Wagonway, near Newcastle upon Tyne, were observed by George Stephenson. The Middleton locomotives remained at work until 1835.[br]Bibliography10 April, 1811, "Certain Mechanical Means by which the Conveyance of Coals, Minerals and Other Articles is Facilitated….", British patent no. 3,431.Further ReadingJ.Bushell, 1975, The World's Oldest Railway, Sheffield: Turntable (describes Blenkinsop's work).E.K.Scott (ed.), 1928, Matthew Murray, Pioneer Engineer, Leeds.C.von Oeynhausen and H.von Dechen, 1971, Railways in England 1826 and 1827, Cambridge: W.Heffer \& Sons.PJGR -
15 Curr, John
[br]b. 1756 Kyo, near Lanchester, or in Greenside, near Ryton-on-Tyne, Durham, Englandd. 27 January 1823 Sheffield, England[br]English coal-mine manager and engineer, inventor of flanged, cast-iron plate rails.[br]The son of a "coal viewer", Curr was brought up in the West Durham colliery district. In 1777 he went to the Duke of Norfolk's collieries at Sheffield, where in 1880 he was appointed Superintendent. There coal was conveyed underground in baskets on sledges: Curr replaced the wicker sledges with wheeled corves, i.e. small four-wheeled wooden wagons, running on "rail-roads" with cast-iron rails and hauled from the coal-face to the shaft bottom by horses. The rails employed hitherto had usually consisted of plates of iron, the flange being on the wheels of the wagon. Curr's new design involved flanges on the rails which guided the vehicles, the wheels of which were unflanged and could run on any hard surface. He appears to have left no precise record of the date that he did this, and surviving records have been interpreted as implying various dates between 1776 and 1787. In 1787 John Buddle paid tribute to the efficiency of the rails of Curr's type, which were first used for surface transport by Joseph Butler in 1788 at his iron furnace at Wingerworth near Chesterfield: their use was then promoted widely by Benjamin Outram, and they were adopted in many other English mines. They proved serviceable until the advent of locomotives demanded different rails.In 1788 Curr also developed a system for drawing a full corve up a mine shaft while lowering an empty one, with guides to separate them. At the surface the corves were automatically emptied by tipplers. Four years later he was awarded a patent for using double ropes for lifting heavier loads. As the weight of the rope itself became a considerable problem with the increasing depth of the shafts, Curr invented the flat hemp rope, patented in 1798, which consisted of several small round ropes stitched together and lapped upon itself in winding. It acted as a counterbalance and led to a reduction in the time and cost of hoisting: at the beginning of a run the loaded rope began to coil upon a small diameter, gradually increasing, while the unloaded rope began to coil off a large diameter, gradually decreasing.Curr's book The Coal Viewer (1797) is the earliest-known engineering work on railway track and it also contains the most elaborate description of a Newcomen pumping engine, at the highest state of its development. He became an acknowledged expert on construction of Newcomen-type atmospheric engines, and in 1792 he established a foundry to make parts for railways and engines.Because of the poor financial results of the Duke of Norfolk's collieries at the end of the century, Curr was dismissed in 1801 despite numerous inventions and improvements which he had introduced. After his dismissal, six more of his patents were concerned with rope-making: the one he gained in 1813 referred to the application of flat ropes to horse-gins and perpendicular drum-shafts of steam engines. Curr also introduced the use of inclined planes, where a descending train of full corves pulled up an empty one, and he was one of the pioneers employing fixed steam engines for hauling. He may have resided in France for some time before his death.[br]Bibliography1788. British patent no. 1,660 (guides in mine shafts).1789. An Account of tin Improved Method of Drawing Coals and Extracting Ores, etc., from Mines, Newcastle upon Tyne.1797. The Coal Viewer and Engine Builder's Practical Companion; reprinted with five plates and an introduction by Charles E.Lee, 1970, London: Frank Cass, and New York: Augustus M.Kelley.1798. British patent no. 2,270 (flat hemp ropes).Further ReadingF.Bland, 1930–1, "John Curr, originator of iron tram roads", Transactions of the Newcomen Society 11:121–30.R.A.Mott, 1969, Tramroads of the eighteenth century and their originator: John Curr', Transactions of the Newcomen Society 42:1–23 (includes corrections to Fred Bland's earlier paper).Charles E.Lee, 1970, introduction to John Curr, The Coal Viewer and Engine Builder's Practical Companion, London: Frank Cass, pp. 1–4; orig. pub. 1797, Sheffield (contains the most comprehensive biographical information).R.Galloway, 1898, Annals of Coalmining, Vol. I, London; reprinted 1971, London (provides a detailed account of Curr's technological alterations).WK / PJGR
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