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1 LMS
1) Медицина: Lund-Mackay score (шкала Ланда-Маккея)2) Американизм: Land Mitigation Strategy, Lots More Spending3) Спорт: Last Man Standing4) Военный термин: Least Means Squared, Lightweight Mortar System, Local Monitor Station, laser mapping system, lightweight millimeter-wave sensor, linear measuring system, load measurement system5) Техника: laser mass-spectrometer, least mean square, least mean square algorithm, least mean squared error, licensing management system6) Математика: Лондонское математическое общество (London Mathematical Society), линейная модульная система (linear modular system), линейное метрическое пространство (linear metric space)7) Метеорология: Light Moderate Severe8) Железнодорожный термин: Locomotive Management Services9) Сокращение: Learning Management System (2003, web based learning), Lightweight Multi-purpose Shelter, Local Monitoring Station, Logistics Management System10) Вычислительная техника: Library Maintenance System (BS2000)11) Космонавтика: Life and Microgravity Sciences (NASA Specalab mission)12) Транспорт: Le Mans Specification13) Холодильная техника: Linde molecular sieve14) Образование: Link Management System, СДО ( Система дистанционного обучения) (Learning Management System), система управления образованием, learning management system15) Сетевые технологии: Last Mile Solution, Lightweight Multicast Services, Load Memory Scan, коммутатор передачи сообщений16) Макаров: least-mean-square (algorithm)17) Расширение файла: Lotus Messaging Switch (Lotus)18) Нефть и газ: line maintenance service, line pipe maintenance station, ЛЭС, линейная эксплуатационная служба, LES19) Электротехника: load management system20) Высокочастотная электроника: location and monitoring services21) Должность: Learning Management Systems22) NYSE. The Lamson & Sessions Company -
2 Giffard, Baptiste Henry Jacques (Henri)
[br]b. 8 February 1825 Paris, Franced. 14 April 1882 Paris, France[br]French pioneer of airships and balloons, inventor of an injector for steam-boiler feedwater.[br]Giffard entered the works of the Western Railway of France at the age of 16 but became absorbed by the problem of steam-powered aerial navigation. He proposed a steam-powered helicopter in 1847, but he then turned his attention to an airship. He designed a lightweight coke-burning, single-cylinder steam engine and boiler which produced just over 3 hp (2.2 kW) and mounted it below a cigar-shaped gas bag 44 m (144 ft) in length. A triangular rudder was fitted at the rear to control the direction of flight. On 24 September 1852 Giffard took off from Paris and, at a steady 8 km/h (5 mph), he travelled 28 km (17 miles) to Trappes. This can be claimed to be the first steerable lighter-than-air craft, but with a top speed of only 8 km/h (5 mph) even a modest headwind would have reduced the forward speed to nil (or even negative). Giffard built a second airship, which crashed in 1855, slightly injuring Giffard and his companion; a third airship was planned with a very large gas bag in order to lift the inherently heavy steam engine and boiler, but this was never built. His airships were inflated by coal gas and refusal by the gas company to provide further supplies brought these promising experiments to a premature end.As a draughtsman Giffard had the opportunity to travel on locomotives and he observed the inadequacies of the feed pumps then used to supply boiler feedwater. To overcome these problems he invented the injector with its series of three cones: in the first cone (convergent), steam at or below boiler pressure becomes a high-velocity jet; in the second (also convergent), it combines with feedwater to condense and impart high velocity to it; and in the third (divergent), that velocity is converted into pressure sufficient to overcome the pressure of steam in the boiler. The injector, patented by Giffard, was quickly adopted by railways everywhere, and the royalties provided him with funds to finance further experiments in aviation. These took the form of tethered hydrogen-inflated balloons of successively larger size. At the Paris Exposition of 1878 one of these balloons carried fifty-two passengers on each tethered "flight". The height of the balloon was controlled by a cable attached to a huge steam-powered winch, and by the end of the fair 1,033 ascents had been made and 35,000 passengers had seen Paris from the air. This, and similar balloons, greatly widened the public's interest in aeronautics. Sadly, after becoming blind, Giffard committed suicide; however, he died a rich man and bequeathed large sums of money to the State for humanitarian an scientific purposes.[br]Principal Honours and DistinctionsCroix de la Légion d'honneur 1863.Bibliography1860, Notice théorique et pratique sur l'injecteur automoteur.1870, Description du premier aérostat à vapeur.Further ReadingDictionnaire de biographie française.Gaston Tissandier, 1872, Les Ballons dirigeables, Paris.—1878, Le Grand ballon captif à vapeur de M. Henri Giffard, Paris.W.de Fonvielle, 1882, Les Ballons dirigeables à vapeur de H.Giffard, Paris. Giffard is covered in most books on balloons or airships, e.g.: Basil Clarke, 1961, The History of Airships, London. L.T.C.Rolt, 1966, The Aeronauts, London.Ian McNeill (ed.), 1990, An Encyclopaedia of the History of Technology, London: Routledge, pp. 575 and 614.J.T.Hodgson and C.S.Lake, 1954, Locomotive Management, Tothill Press, p. 100.PJGR / JDSBiographical history of technology > Giffard, Baptiste Henry Jacques (Henri)
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3 Fairlie, Robert Francis
[br]b. March 1831 Scotlandd. 31 July 1885 Clapham, London, England[br]British engineer, designer of the double-bogie locomotive, advocate of narrow-gauge railways.[br]Fairlie worked on railways in Ireland and India, and established himself as a consulting engineer in London by the early 1860s. In 1864 he patented his design of locomotive: it was to be carried on two bogies and had a double boiler, the barrels extending in each direction from a central firebox. From smokeboxes at the outer ends, return tubes led to a single central chimney. At that time in British practice, locomotives of ever-increasing size were being carried on longer and longer rigid wheelbases, but often only one or two of their three or four pairs of wheels were powered. Bogies were little used and then only for carrying-wheels rather than driving-wheels: since their pivots were given no sideplay, they were of little value. Fairlie's design offered a powerful locomotive with a wheelbase which though long would be flexible; it would ride well and have all wheels driven and available for adhesion.The first five double Fairlie locomotives were built by James Cross \& Co. of St Helens during 1865–7. None was particularly successful: the single central chimney of the original design had been replaced by two chimneys, one at each end of the locomotive, but the single central firebox was retained, so that exhaust up one chimney tended to draw cold air down the other. In 1870 the next double Fairlie, Little Wonder, was built for the Festiniog Railway, on which C.E. Spooner was pioneering steam trains of very narrow gauge. The order had gone to George England, but the locomotive was completed by his successor in business, the Fairlie Engine \& Steam Carriage Company, in which Fairlie and George England's son were the principal partners. Little Wonder was given two inner fireboxes separated by a water space and proved outstandingly successful. The spectacle of this locomotive hauling immensely long trains up grade, through the Festiniog Railway's sinuous curves, was demonstrated before engineers from many parts of the world and had lasting effect. Fairlie himself became a great protagonist of narrow-gauge railways and influenced their construction in many countries.Towards the end of the 1860s, Fairlie was designing steam carriages or, as they would now be called, railcars, but only one was built before the death of George England Jr precipitated closure of the works in 1870. Fairlie's business became a design agency and his patent locomotives were built in large numbers under licence by many noted locomotive builders, for narrow, standard and broad gauges. Few operated in Britain, but many did in other lands; they were particularly successful in Mexico and Russia.Many Fairlie locomotives were fitted with the radial valve gear invented by Egide Walschaert; Fairlie's role in the universal adoption of this valve gear was instrumental, for he introduced it to Britain in 1877 and fitted it to locomotives for New Zealand, whence it eventually spread worldwide. Earlier, in 1869, the Great Southern \& Western Railway of Ireland had built in its works the first "single Fairlie", a 0–4–4 tank engine carried on two bogies but with only one of them powered. This type, too, became popular during the last part of the nineteenth century. In the USA it was built in quantity by William Mason of Mason Machine Works, Taunton, Massachusetts, in preference to the double-ended type.Double Fairlies may still be seen in operation on the Festiniog Railway; some of Fairlie's ideas were far ahead of their time, and modern diesel and electric locomotives are of the powered-bogie, double-ended type.[br]Bibliography1864, British patent no. 1,210 (Fairlie's master patent).1864, Locomotive Engines, What They Are and What They Ought to Be, London; reprinted 1969, Portmadoc: Festiniog Railway Co. (promoting his ideas for locomotives).1865, British patent no. 3,185 (single Fairlie).1867. British patent no. 3,221 (combined locomotive/carriage).1868. "Railways and their Management", Journal of the Society of Arts: 328. 1871. "On the Gauge for Railways of the Future", abstract in Report of the FortiethMeeting of the British Association in 1870: 215. 1872. British patent no. 2,387 (taper boiler).1872, Railways or No Railways. "Narrow Gauge, Economy with Efficiency; or Broad Gauge, Costliness with Extravagance", London: Effingham Wilson; repr. 1990s Canton, Ohio: Railhead Publications (promoting the cause for narrow-gauge railways).Further ReadingFairlie and his patent locomotives are well described in: P.C.Dewhurst, 1962, "The Fairlie locomotive", Part 1, Transactions of the Newcomen Society 34; 1966, Part 2, Transactions 39.R.A.S.Abbott, 1970, The Fairlie Locomotive, Newton Abbot: David \& Charles.PJGRBiographical history of technology > Fairlie, Robert Francis
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4 MDM
1) Компьютерная техника: Modular Digital Multitrack, управление основными данными (master data management)2) Военный термин: Mobility Diagnostic Module, manpower determination model, map display module, materiel division manual, medium depth mine, miss distance measuring, mobile depot maintenance3) Техника: Metal Disintegration Machine, manipulator deployment mechanism, metal disintegration machining, modified diffusion method, multiplex-demultiplex4) Железнодорожный термин: Murray Design & Manufacturing Corporation Locomotive Works5) Оптика: metal-dielectric multilayer6) Сокращение: Multiplexer / Demultiplexer, maximum design meter, medium, metal-dielectric-metal (filter)7) Вычислительная техника: multidimensional modeling, Mobile Device Management (CA, Unicenter)8) Пищевая промышленность: Mountain Dew Men, mechanically deboned meat9) Фирменный знак: Murray Design & Manufacturing Corporation10) Деловая лексика: Modern Distribution Management11) Химическое оружие: Multipurpose demilitarization machine, multipurpose demil machine12) Расширение файла: Modem definition (TELIX)13) NYSE. Medium4.com, Inc.14) Программное обеспечение: Machine Debug Manager, Model Duplicating Media -
5 Mdm
1) Компьютерная техника: Modular Digital Multitrack, управление основными данными (master data management)2) Военный термин: Mobility Diagnostic Module, manpower determination model, map display module, materiel division manual, medium depth mine, miss distance measuring, mobile depot maintenance3) Техника: Metal Disintegration Machine, manipulator deployment mechanism, metal disintegration machining, modified diffusion method, multiplex-demultiplex4) Железнодорожный термин: Murray Design & Manufacturing Corporation Locomotive Works5) Оптика: metal-dielectric multilayer6) Сокращение: Multiplexer / Demultiplexer, maximum design meter, medium, metal-dielectric-metal (filter)7) Вычислительная техника: multidimensional modeling, Mobile Device Management (CA, Unicenter)8) Пищевая промышленность: Mountain Dew Men, mechanically deboned meat9) Фирменный знак: Murray Design & Manufacturing Corporation10) Деловая лексика: Modern Distribution Management11) Химическое оружие: Multipurpose demilitarization machine, multipurpose demil machine12) Расширение файла: Modem definition (TELIX)13) NYSE. Medium4.com, Inc.14) Программное обеспечение: Machine Debug Manager, Model Duplicating Media -
6 mDm
1) Компьютерная техника: Modular Digital Multitrack, управление основными данными (master data management)2) Военный термин: Mobility Diagnostic Module, manpower determination model, map display module, materiel division manual, medium depth mine, miss distance measuring, mobile depot maintenance3) Техника: Metal Disintegration Machine, manipulator deployment mechanism, metal disintegration machining, modified diffusion method, multiplex-demultiplex4) Железнодорожный термин: Murray Design & Manufacturing Corporation Locomotive Works5) Оптика: metal-dielectric multilayer6) Сокращение: Multiplexer / Demultiplexer, maximum design meter, medium, metal-dielectric-metal (filter)7) Вычислительная техника: multidimensional modeling, Mobile Device Management (CA, Unicenter)8) Пищевая промышленность: Mountain Dew Men, mechanically deboned meat9) Фирменный знак: Murray Design & Manufacturing Corporation10) Деловая лексика: Modern Distribution Management11) Химическое оружие: Multipurpose demilitarization machine, multipurpose demil machine12) Расширение файла: Modem definition (TELIX)13) NYSE. Medium4.com, Inc.14) Программное обеспечение: Machine Debug Manager, Model Duplicating Media -
7 facility
1) устройство; установка2) мн. ч. оборудование; аппаратура, аппаратное обеспечение; технические средства; производственные мощности4) канал связи•-
air navigation facilities
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aircraft facility
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aircraft manufacturing facilities
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aircraft standby facilities
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airways facilities
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altitude test facility
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approach facilities
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aquatic photovoltaic facility
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at-reactor dry storage facility
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audio transfer facility
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blending facilities
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blocked facility
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bundling facilities
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cable facilities
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canned cycle facilities
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capsule cleaning facilities
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car production facility
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car repair facility
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cargo handling facilities
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centralized video tape facilities
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charging facilities
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clean room facilities
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coal-cleaning facilities
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coal-storage facility
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coke-quenching facilities
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cold-storage facilities
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combined outlet facility
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communications facilities
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communication facilities
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communications security facilities
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communication security facilities
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comprehensive facilities
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computer facility
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computer-aided design facilities
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computer-aided manufacturing facilities
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conditioning facilities
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control facilities
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cryogenic facilities
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custom facilities
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cutter compensation facility
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debugging facilities
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deep space instrumentation facility
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degassing facility
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discharge facility
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dishwashing facility
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display facilities
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diversion facility
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DNC facilities
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drying facilities
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dual-purpose energy facility
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editing facility
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effluent-disposal facilities
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electrical distribution facilities
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electrical facility
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fabrication facilities
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fault tracing facilities
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field facilities
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field-test facilities
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finishing facilities
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firing facilities
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fish facility
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fuel-reprocessing facility
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gathering facilities
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generalized facilities
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ground handling facilities
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hot extrusion facilities
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in-house facilities
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interface facilities
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intermodal facility
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investment casting facility
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job-shop production facilities
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ladle-degassing facility
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landline facilities
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library facilities
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lighting facilities
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limited facilities
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lining facilities
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locomotive facility
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locomotive servicing facility
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machining facilities
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maintenance facility
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management facilities
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manufacturing facilities
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MDH facility
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melting facility
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metal-degassing facility
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mirror fusion test facility
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mooring facility
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multilayering facility
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navigation facility
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navigational facilities
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office facilities
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oil field facility
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oil handling facilities
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oil servicing facilities
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oil-loading facilities
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orbital facility
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orderwire facilities
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pallet off-loading facility
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patching facilities
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peripheral facilities
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photovoltaic facility
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photovoltaic test facility
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post-irradiation examination facility
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power facility
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power reactor facility
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process facilities
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production facilities
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pumping facility
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radio facilities
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ramp facilities
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reactor facility
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reception facility
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repair facilities
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reprographic facilities
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sanitation facility
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satellite transmission facilities
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scrap-handling facilities
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scrap-processing facilities
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security facilities
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service facility
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shop lining facilities
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slaughtering facilities
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solar simulator facility
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standby facility
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steam-degassing facilities
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storage facility
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studio facilities
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surface facility
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switching facilities
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tank cleaning facility
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tank farm facilities
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tape recording facility
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tar-distillation facilities
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television facilities
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television-production facility
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television-switching facilities
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terminal facility
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test facilities
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thorium-uranium reprocessing facility
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threading facility
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toilet facility
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tool call-up facility
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tool offset facility
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tool presetting facility
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topping facility
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transmission facility
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transuranic waste treatment facility
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truck-loading facilities
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unloading facilities
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utility-installed photovoltaic facility
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vacant facility
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video facilities
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video-switching facilities
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wagon washout facility
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waste handling facility
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waste-water treatment facility
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water flood facilities
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water intake facility
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water treating facility
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waterworks facility
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weightless environment training facility
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withdrawal-roll facility -
8 technology
1) технология; технические приёмы2) техника; технические средства3) технические знания; технический опыт, систематизированный технический опыт•- actuator technology
- advanced manufacturing technology
- aggregate technology
- AI-based robotics technology
- assembly technology
- audiovisual technology
- automatic eddy current technology
- automation technology
- automative technology
- CAD/CAM technology
- CADCAM technology
- CAM technology
- capacitance technology
- capacitance-sensing technology
- CBN grinding technology
- cell manufacturing technology
- CIM-based technology
- CIMIS technologies
- CNC technology
- communication technology
- computer-aided technology
- computer-driven technology
- control technology
- conveyance technologies
- cutoff sawing technology
- cutting edge technology
- cutting machine tool technology
- cutting technology
- cutting tool technology
- digital eddy current technology
- digital imaging technology
- digital technology
- DNC technology
- eddy current technology
- electroheat technology
- electronic technology
- enabling technology
- engineering technology
- enterprise management technology
- fabricating technology
- fast-developing control technology
- field-proven technology
- five-axis technology
- flexible manufacturing technology
- FMS technology
- force-based technology
- framework technology
- gear processing technology
- generative NC technology
- group technology
- image expansion technology
- industrial automation technologies
- information management technology
- information technology
- innovative technology
- insert technology
- inspection technology
- instructional technologies
- instrumentation technology
- knowledge processing technology
- laser strip technology
- laser stripe technology
- laser surface modification technology
- laser technology
- laser-gaging technology
- leading-edge technology
- lighting technology
- locomotive technologies
- machine control technology
- machine tool control technology
- machine tool technology
- machining technology
- mainstream manufacturing technology
- manufacturing technology
- materials technology
- material-specific cutting technology
- mature technology
- measurement technology
- mechanical technology
- mechanical-engineering technology
- microprocessor technology
- moire technology
- monitoring technology
- multiple laser technology
- NC machining technology
- NC technology
- near-term technology
- networking technology
- numerical control process technology
- open system technology
- open systems technology
- pattern-recognition technology
- precision engineering technology
- probing technologies
- process technology
- processing technology
- production technology
- remote control technology
- robot technology
- robotics technology
- RP technology
- saw technology
- sensing technology
- sensor technology
- sheet metal working technology
- silicon integrated-circuit technology
- silicon technology
- solid state technology
- standard-product technologies
- support technology
- surface-mount technology
- swarf-monitoring technology
- telepresence technology
- telerobotic technology
- time study-based technology
- time-of-flight technology
- tried-and-true technology
- turning technology
- ultrasonic technology
- underlying technology
- unmanned turning technology
- up-to-the-minute technology
- vacuum technology
- vision technology
- workstation technologyEnglish-Russian dictionary of mechanical engineering and automation > technology
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9 engine
двигатель (внутреннего сгорания); машина; мотор- engine analyzer - engine and gearbox unit - engine area - engine assembly - engine assembly shop - engine bonnet - engine braking force - engine breathing - engine-building - engine capacity - engine cleansing agents - engine column - engine component - engine conk - engine control - engine-cooling - engine-cooling thermometer - engine cowl flap - engine cross-drive casing - engine cutoff - engine cycle - engine data - engine deck - engine department - engine details - engine diagnostic connector - engine-driven air compressor - engine-driven industrial shop truck - engine dry weight - engine efficiency - engine failure - engine fan pulley - engine flameout - engine flywheel - engine for different fuels - engine frame - engine front - engine front area - engine front support bracket - engine fuel - engine gearbox - engine-gearbox unit - engine-generator - engine-governed speed - engine governor - engine gum - engine hatch - engine hoist - engine hood - engine house - engine idles rough - engine in situ - engine installation - engine is smooth - engine is tractable - engine knock - engine lacquer - engine life - engine lifetime pecypc - engine lifting bracket - engine lifting fixture - engine lifting hook - engine location - engine lubrication system - engine lug - engine management - engine management system - engine map - engine misfires - engine model - engine motoring - engine mount - engine-mounted - engine mounted longitudinally - engine mounted transversally - engine mounting - engine-mounting bracket - engine nameplate - engine noise - engine number - engine off - engine oil - engine oil capacity - engine oil filler cap - engine oil filling cap - engine oil tank - engine on - engine operating temperature - engine out of work - engine output - engine overhaul - engine pan - engine peak speed - engine performance - engine picks up - engine pings - engine piston - engine plant - engine power - engine pressure - engine primer - engine rating - engine rear support - engine reconditioning - engine renovation - engine repair stand - engine retarder - engine revolution counter - engine rig test - engine room - engine roughness - engine rpm indicator - engine run-in - engine runs rough - engine runs roughly - engine shaft - engine shed - engine shield - engine shop - engine shorting-out - engine shutdown - engine sludge - engine snubber - engine speed - engine speed sensor - engine stability - engine stalls - engine start - engine starting system - engine starts per day - engine stroke - engine subframe - engine sump - engine sump well - engine support - engine temperature sensor - engine test stand - engine testing room - engine throttle - engine timing case - engine-to-cabin passthrough aperture - engine-transmission unit - engine torque - engine trends - engine trouble - engine tune-up - engine turning at peak revolution - engine under seat - engine unit - engine vacuum checking gauge - engine valve - engine varnish - engine vibration - engine wash - engine water inlet - engine water outlet - engine wear - engine weight - engine weight per horsepower - engine winterization system - engine with supercharger - engine wobble - engine works - engine yard - engine's flexibility - aero-engine - atmospheric engine - atmospheric steam engine - atomic engine - augmented engine - AV-1 engine - aviation engine - back-up engine - birotary engine - blast-injection diesel engine - blower-cooled engine - bored-out engine - boxer engine - bull engine - car engine - charge-cooled engine - crank engine - crankcase-scavenged engine - crude engine - crude-oil engine - diaphragm engine - diesel-electric engine - Diesel engine - Diesel engine with air cell - Diesel engine with antechamber - Diesel engine with direct injection - Diesel engine with mechanical injection - direct injection engine - divided-chamber engine - double-flow engine - double-overhead camshaft engine - drilling engine - driving engine - drop-valve engine - ducted-fan engine - duofuel engine - emergency engine - explosion engine - external combustion engine - external-internal combustion engine - F-head engine - failed engine - fan engine - federal engine - field engine - fire-engine - five-cylinder engine - fixed engine - flame engine - flat engine - flat-four engine - flat twin engine - flexibly mounted engine - forced-induction engine - four-cycle engine - four-cylinder engine - four-stroke engine - free-piston engine - free-piston gas generator engine - front-mounted engine - free-turbine engine - fuel-injection engine - full-load engine - gas engine - gas blowing engine - gas-power engine - gas-turbine engine - gasoline engine - geared engine - heat engine - heavy-duty engine - heavy-oil engine - high-by-pass-ratio turbofan engine - high-compression engine - high-efficiency engine - high-performance engine - high-power engine - high-speed engine - hoisting engine - hopped-up engine - horizontal engine - horizontally opposed engine - hot engine - hot-air engine - hot-bulb engine - hydrogen engine - I-head engine - in-line engine - inclined engine - indirect injection engine - individual-cylinder engine - industrial engine - inhibited engine - injection oil engine - injection-type engine - intercooled diesel engine - intermittent-cycle engine - internal combustion engine - inverted engine - inverted Vee-engine - jet engine - jet-propulsion engine - kerosene engine - knock test engine - L-head engine - launch engine - lean-burn engine - left-hand engine - lift engine - light engine - liquid-cooled engine - liquid propane engine - locomotive engine - longitudinal engine - long-stroke engine - low-compression engine - low-consumption engine - low-emission engine - low-performance engine - low-speed engine - marine engine - modular engine - monosoupape engine - motor engine - motor an engine round - motor-boat engine - motor-fire engine - motorcycle engine - motored engine - multibank engine - multicarburetor engine - multicrank engine - multicylinder engine - multifuel engine - multirow engine - naturally aspirated engine - non-compression engine - non-condensing engine - non-exhaust valve engine - non-poppet valve engine - non-reversible engine - nuclear engine - oil engine - oil-electric engine - oil well drilling engine - one-cylinder engine - operating engine - opposed engine - opposed cylinders engine - Otto engine - out-board engine - overcooled engine - overhead valve engine - oversquare engine - overstroke engine - pancake engine - paraffin engine - paraffine engine - petrol engine - Petter AV-1 Diesel engine - pilot engine - piston engine - piston blast engine - port engine - precombustion chamber engine - prime an engine - producer-gas engine - production engine - prototype engine - pumping engine - pushrod engine - quadruple-expansion engine - qual-cam engine - racing engine - radial engine - radial cylinder engine - radial second motion engine - railway engine - ram induction engine - ram-jet engine - reaction engine - rear-mounted engine - rebuilt engine - reciprocating engine - reciprocating piston engine - reconditioned engine - regenerative engine - regular engine - reheat engine - research-cylinder engine - reversible engine - reversing engine - right-hand engine - rocket engine - rotary engine - rough engine - row engine - run in an engine - scavenged gasoline engine - scavenging engine - sea-level engine - second-motion engine - self-ignition engine - semidiesel engine - series-wound engine - servo-engine - short-life engine - short-stroke engine - shorted-out engine - shunting engine - shunt-wound engine - side-by-side engine - side-valve engine - simple-expansion engine - single-acting engine - single-chamber rocket engine - single-cylinder engine - single-cylinder test engine - single-row engine - six-cylinder engine - skid engine - slanted engine - sleeve-valve engine - sleeveless engine - slide-valve engine - slope engine - slow-running engine - slow-speed engine - small-bore engine - small-displacement engine - solid-injection engine - spark-ignition engine - spark-ignition fuel-injection engine - split-compressor engine - square engine - square stroke engine - stalled engine - stand-by engine - start the engine cold - start the engine light - start the engine warm- hot- starting engine - static engine - stationary engine - steam engine - steering engine - Stirling engine - straight-eight engine - straight-line engine - straight-type engine - stratified charge engine - stripped engine - submersible engine - suction gas engine - supercharged engine - supercompression engine - supplementary engine - swash-plate engine - switching engine - tandem engine - tank engine - thermal engine - three-cylinder engine - traction engine - triple-expansion engine - tractor engine - transversally-mounted engine - truck engine - trunk-piston Diesel engine - turbine engine - turbo-jet engine - turbo-charged engine - turbo-compound engine - turbo-prop engine - turbo-ramjet engine - turbo-supercharged engine - turbocharged-and-aftercooled engine - turbofan engine - turboprop engine - twin engine - twin cam engine - twin crankshaft engine - twin six engine - two-bank engine - two-cycle engine - two-cylinder engine - two-spool engine - two-stroke engine - unblown engine - uncooled engine - underfloor engine - undersquare engine - uniflow engine - unsupercharged engine - uprated engine - V-engine - V-type engine - valve-in-the-head engine - valveless engine - vaporizer engine - vaporizing-oil engine - variable compression engine - variable-stroke engine - variable valve-timing engine - vee engine - vertical engine - vertical turn engine - vertical vortex engine - W-type engine - Wankel engine - warm engine - waste-heat engine - water-cooled engine - winding engine - windshield wiper engine - woolly-type engine - worn engine - X-engine - Y-engine - yard engine -
10 service
1) служба2) работа; функционирование3) эксплуатация4) обслуживание, сервис || обслуживать5) техническое обслуживание и (текущий) ремонт || проводить техническое обслуживание и (текущий) ремонт6) мн. ч. строит. коммуникации7) система энергоснабжения; энергоснабжение8) эл. подводка, абонентский ввод9) ж.-д., возд. сообщение; перевозки•to begin service — начинать эксплуатацию;to be in service — находиться в эксплуатации;to be ready for service — быть готовым к эксплуатации;to enter [to go into\] service — вводить в эксплуатацию;to lay services — прокладывать коммуникации;to map services — давать разбивку коммуникаций;to operate passenger service — эксплуатировать пассажирские поезда;to phase in the night service — вводить в эксплуатацию ночной поезд;to prepare for service — приводить в рабочее состояние; делать годным к эксплуатации;to provide service — обслуживать; ж.-д. обеспечивать сообщение;to put into service — вводить в эксплуатацию;-
absent-subscriber service
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aerodrome alerting service
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aerodrome control service
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aerodrome service
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aeronautical fixed service
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aeronautical information service
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aeronautical mobile service
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air service
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air traffic service
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air transport service
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airport safety service
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airport traffic service
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alerting service
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all-cargo service
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antihail service
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approach control service
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around-the-clock service
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braking service
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broadcasting service
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building service
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bulk-commodity service
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citizen's radio service
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classification yard service
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coastal radio service
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communication service
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computer service
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continuous service
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delivery service
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directory inquiry service
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disrupt service
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domestic service
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electric train service
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emergency radio service
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emergency service
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engineering services
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environmental service
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facsimile service
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field service
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fire fighting service
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flight information service
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flight service
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flood-forecasting service
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flood-warning service
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freight service
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hail-suppression service
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heavy-unit train service
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high-pressure service
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high-utilization service
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house service
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information service
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intercity air service
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intermittent-duty service
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intermittent service
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international communication service
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interurban service
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irrigation management service
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irrigation service
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lighting service
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line service
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locomotive-hauled service
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logging services
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long-haul service
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mail service
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marine meteorological service
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mobile breakdown service
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mobile phone service
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multistop service
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network service
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on-orbit service
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passenger train service
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personal-radio service
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pooled service
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power service
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powerplant services
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predelivery service
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production services
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radar service
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radio monitoring service
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radiocommunication service
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radionavigation service
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radiopaging service
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rail defect detection service
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railway service
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rebuild service
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remote service
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rescue and recovery service
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rescue service
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revenue producing service
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revenue service
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reversing service
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running service
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sanitation service
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scheduled air service
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search and rescue service
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short-haul service
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short-time service
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shunting service
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shuttle service
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single service
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standby service
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station service
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stop-and-go service
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suburban service
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supervisory service
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telemetric service
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telephoto service
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television service
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temporary power service
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terminal information service
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through air service
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through railway service
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time-signal service
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traffic advisory service
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train service
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transfer service
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trial passenger service
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turnaround service
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value-added services
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videoconference service
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videophone service
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warning service
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water service
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waterway operating service
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weather service
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wire-line services
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yard service -
11 LAMA
1) Фармакология: long acting muscarinic antagonist2) Металлургия: Locomotive and Allied Manufacturers' Association3) Сокращение: local automatic message accounting4) Вычислительная техника: Local Automatic Message Accounting (Telephony)5) Автоматика: language for automatic mechanical assembly6) Библиотечное дело: Library Administration And Management Association -
12 lama
1) Фармакология: long acting muscarinic antagonist2) Металлургия: Locomotive and Allied Manufacturers' Association3) Сокращение: local automatic message accounting4) Вычислительная техника: Local Automatic Message Accounting (Telephony)5) Автоматика: language for automatic mechanical assembly6) Библиотечное дело: Library Administration And Management Association -
13 Gregory, Sir Charles Hutton
[br]b. 14 October 1817 Woolwich, Englandd. 10 January 1898 London, England[br]English civil engineer, inventor of the railway semaphore signal.[br]Gregory's father was Professor of Mathematics at the Royal Military Academy, Woolwich.C.H. Gregory himself, after working for Robert Stephenson, was appointed Engineer to the London \& Croydon Railway in 1839. On it, at New Cross in 1841, he installed a semaphore signal derived from signalling apparatus used by the Royal Navy; two hinged semaphore arms projected either side from the top of a post, signalling to drivers of trains in each direction of travel. In horizontal position each arm signified "danger", an arm inclined at 45° meant "caution" and the vertical position, in which the arms disappeared within a slot in the post, meant "all right". Gregory's signal was the forerunner of semaphore signals adopted on railways worldwide. In 1843 Gregory invented the stirrup frame: signal arms were connected to stirrups that were pushed down by the signalman's foot in order to operate them, while the points were operated by levers. The stirrups were connected together to prevent conflicting signals from being shown. This was a predecessor of interlocking. In 1846 Gregory became Engineer to the Bristol \& Exeter Railway, where in 1848 he co-operated with W.B. Adams in the development and operation of the first self-propelled railcar. He later did civil engineering work in Italy and France, was Engineer to the Somerset Central and Dorset Central railways and became Consulting Engineer for the government railways in Ceylon (now Sri Lanka), Cape of Good Hope, Straits Settlements and Trinidad.[br]Principal Honours and DistinctionsCompanion of the Order of St Michael and St George 1876. Knight Commander of the Order of St Michael and St George 1883. President, Institution of Civil Engineers 1867– 8.Bibliography1841, Practical Rules for the Management of a Locomotive Engine, London (one of the earliest such textbooks).Further ReadingObituary, 1898, Engineering 65 (14 January). See also Saxby, John.PJGRBiographical history of technology > Gregory, Sir Charles Hutton
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