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21 отопление
с. heating -
22 паровое отопление
1. steam heat2. steam heatingРусско-английский большой базовый словарь > паровое отопление
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23 отопление
firing, heating* * *отопле́ние с.
heatingвну́треннее отопле́ние авто — interior heatingводяно́е отопле́ние — hot-water heatingвозду́шное отопле́ние — warm-air heatingга́зовое отопле́ние — gas heatingлучи́стое отопле́ние — radiant [direct] heatingотопле́ние отходя́щими га́зами — waste gas heatingпане́льное отопле́ние — panel heatingпароводяно́е отопле́ние — steam-water heatingпарово́е отопле́ние — steam heatingпарово́е отопле́ние с ве́рхней разво́дкой — downfeed systemпарово́е отопле́ние с ни́жней разво́дкой — steam-heating upfeed heatingпечно́е отопле́ние — stove heatingрадиа́торное отопле́ние — radiator hot-water heatingотопле́ние с есте́ственной циркуля́цией — gravity heatingцентра́льное отопле́ние — central heatingэлектри́ческое отопле́ние — electric heating -
24 Perkins, Jacob
[br]b. 9 July 1766 Newburyport, Massachusetts, USAd. 30 July 1849 London, England[br]American inventor of a nail-making machine and a method of printing banknotes, investigator of the use of steam at very high pressures.[br]Perkins's occupation was that of a gold-and silversmith; while he does not seem to have followed this after 1800, however, it gave him the skills in working metals which he would continue to employ in his inventions. He had been working in America for four years before he patented his nail-making machine in 1796. At the time there was a great shortage of nails because only hand-forged ones were available. By 1800, other people had followed his example and produced automatic nail-making machines, but in 1811 Perkins' improved machines were introduced to England by J.C. Dyer. Eventually Perkins had twenty-one American patents for a range of inventions in his name.In 1799 Perkins invented a system of engraving steel plates for printing banknotes, which became the foundation of modern siderographic work. It discouraged forging and was adopted by many banking houses, including the Federal Government when the Second United States Bank was inaugurated in 1816. This led Perkins to move to Philadelphia. In the intervening years, Perkins had improved his nail-making machine, invented a machine for graining morocco leather in 1809, a fire-engine in 1812, a letter-lock for bank vaults and improved methods of rolling out spoons in 1813, and improved armament and equipment for naval ships from 1812 to 1815.It was in Philadelphia that Perkins became interested in the steam engine, when he met Oliver Evans, who had pioneered the use of high-pressure steam. He became a member of the American Philosophical Society and conducted experiments on the compressibility of water before a committee of that society. Perkins claimed to have liquified air during his experiments in 1822 and, if so, was the real discoverer of the liquification of gases. In 1819 he came to England to demonstrate his forgery-proof system of printing banknotes, but the Bank of England was the only one which did not adopt his system.While in London, Perkins began to experiment with the highest steam pressures used up to that time and in 1822 took out his first of nineteen British patents. This was followed by another in 1823 for a 10 hp (7.5 kW) engine with only 2 in. (51 mm) bore, 12 in. (305 mm) stroke but a pressure of 500 psi (35 kg/cm2), for which he claimed exceptional economy. After 1826, Perkins abandoned his drum boiler for iron tubes and steam pressures of 1,500 psi (105 kg/cm2), but the materials would not withstand such pressures or temperatures for long. It was in that same year that he patented a form of uniflow cylinder that was later taken up by L.J. Todd. One of his engines ran for five days, continuously pumping water at St Katherine's docks, but Perkins could not raise more finance to continue his experiments.In 1823 one his high-pressure hot-water systems was installed to heat the Duke of Wellington's house at Stratfield Saye and it acquired a considerable vogue, being used by Sir John Soane, among others. In 1834 Perkins patented a compression ice-making apparatus, but it did not succeed commercially because ice was imported more cheaply from Norway as ballast for sailing ships. Perkins was often dubbed "the American inventor" because his inquisitive personality allied to his inventive ingenuity enabled him to solve so many mechanical challenges.[br]Further ReadingHistorical Society of Pennsylvania, 1943, biography which appeared previously as a shortened version in the Transactions of the Newcomen Society 24.D.Bathe and G.Bathe, 1943–5, "The contribution of Jacob Perkins to science and engineering", Transactions of the Newcomen Society 24.D.S.L.Cardwell, 1971, From Watt to Clausius. The Rise of Thermodynamics in the Early Industrial Age, London: Heinemann (includes comments on the importance of Perkins's steam engine).A.F.Dufton, 1940–1, "Early application of engineering to warming of buildings", Transactions of the Newcomen Society 21 (includes a note on Perkins's application of a high-pressure hot-water heating system).RLH -
25 паровое отопление низкого давления
1) Engineering: low-pressure steam heating2) Construction: low pressure steam heating, steam-vapour systemУниверсальный русско-английский словарь > паровое отопление низкого давления
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26 паровое отопление с нижней разводкой
1) Engineering: steam-heating upfeed heating2) Construction: steam-heating up-feed systemУниверсальный русско-английский словарь > паровое отопление с нижней разводкой
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27 вакуум-паровая система отопления
Универсальный русско-английский словарь > вакуум-паровая система отопления
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28 Gresley, Sir Herbert Nigel
[br]b. 19 June 1876 Edinburgh, Scotlandd. 5 April 1941 Hertford, England[br]English mechanical engineer, designer of the A4-class 4–6–2 locomotive holding the world speed record for steam traction.[br]Gresley was the son of the Rector of Netherseale, Derbyshire; he was educated at Marlborough and by the age of 13 was skilled at making sketches of locomotives. In 1893 he became a pupil of F.W. Webb at Crewe works, London \& North Western Railway, and in 1898 he moved to Horwich works, Lancashire \& Yorkshire Railway, to gain drawing-office experience under J.A.F.Aspinall, subsequently becoming Foreman of the locomotive running sheds at Blackpool. In 1900 he transferred to the carriage and wagon department, and in 1904 he had risen to become its Assistant Superintendent. In 1905 he moved to the Great Northern Railway, becoming Superintendent of its carriage and wagon department at Doncaster under H.A. Ivatt. In 1906 he designed and produced a bogie luggage van with steel underframe, teak body, elliptical roof, bowed ends and buckeye couplings: this became the prototype for East Coast main-line coaches built over the next thirty-five years. In 1911 Gresley succeeded Ivatt as Locomotive, Carriage \& Wagon Superintendent. His first locomotive was a mixed-traffic 2–6–0, his next a 2–8–0 for freight. From 1915 he worked on the design of a 4–6–2 locomotive for express passenger traffic: as with Ivatt's 4 4 2s, the trailing axle would allow the wide firebox needed for Yorkshire coal. He also devised a means by which two sets of valve gear could operate the valves on a three-cylinder locomotive and applied it for the first time on a 2–8–0 built in 1918. The system was complex, but a later simplified form was used on all subsequent Gresley three-cylinder locomotives, including his first 4–6–2 which appeared in 1922. In 1921, Gresley introduced the first British restaurant car with electric cooking facilities.With the grouping of 1923, the Great Northern Railway was absorbed into the London \& North Eastern Railway and Gresley was appointed Chief Mechanical Engineer. More 4–6– 2s were built, the first British class of such wheel arrangement. Modifications to their valve gear, along lines developed by G.J. Churchward, reduced their coal consumption sufficiently to enable them to run non-stop between London and Edinburgh. So that enginemen might change over en route, some of the locomotives were equipped with corridor tenders from 1928. The design was steadily improved in detail, and by comparison an experimental 4–6–4 with a watertube boiler that Gresley produced in 1929 showed no overall benefit. A successful high-powered 2–8–2 was built in 1934, following the introduction of third-class sleeping cars, to haul 500-ton passenger trains between Edinburgh and Aberdeen.In 1932 the need to meet increasing road competition had resulted in the end of a long-standing agreement between East Coast and West Coast railways, that train journeys between London and Edinburgh by either route should be scheduled to take 8 1/4 hours. Seeking to accelerate train services, Gresley studied high-speed, diesel-electric railcars in Germany and petrol-electric railcars in France. He considered them for the London \& North Eastern Railway, but a test run by a train hauled by one of his 4–6–2s in 1934, which reached 108 mph (174 km/h), suggested that a steam train could better the railcar proposals while its accommodation would be more comfortable. To celebrate the Silver Jubilee of King George V, a high-speed, streamlined train between London and Newcastle upon Tyne was proposed, the first such train in Britain. An improved 4–6–2, the A4 class, was designed with modifications to ensure free running and an ample reserve of power up hill. Its streamlined outline included a wedge-shaped front which reduced wind resistance and helped to lift the exhaust dear of the cab windows at speed. The first locomotive of the class, named Silver Link, ran at an average speed of 100 mph (161 km/h) for 43 miles (69 km), with a maximum speed of 112 1/2 mph (181 km/h), on a seven-coach test train on 27 September 1935: the locomotive went into service hauling the Silver Jubilee express single-handed (since others of the class had still to be completed) for the first three weeks, a round trip of 536 miles (863 km) daily, much of it at 90 mph (145 km/h), without any mechanical troubles at all. Coaches for the Silver Jubilee had teak-framed, steel-panelled bodies on all-steel, welded underframes; windows were double glazed; and there was a pressure ventilation/heating system. Comparable trains were introduced between London Kings Cross and Edinburgh in 1937 and to Leeds in 1938.Gresley did not hesitate to incorporate outstanding features from elsewhere into his locomotive designs and was well aware of the work of André Chapelon in France. Four A4s built in 1938 were equipped with Kylchap twin blast-pipes and double chimneys to improve performance still further. The first of these to be completed, no. 4468, Mallard, on 3 July 1938 ran a test train at over 120 mph (193 km/h) for 2 miles (3.2 km) and momentarily achieved 126 mph (203 km/h), the world speed record for steam traction. J.Duddington was the driver and T.Bray the fireman. The use of high-speed trains came to an end with the Second World War. The A4s were then demonstrated to be powerful as well as fast: one was noted hauling a 730-ton, 22-coach train at an average speed exceeding 75 mph (120 km/h) over 30 miles (48 km). The war also halted electrification of the Manchester-Sheffield line, on the 1,500 volt DC overhead system; however, anticipating eventual resumption, Gresley had a prototype main-line Bo-Bo electric locomotive built in 1941. Sadly, Gresley died from a heart attack while still in office.[br]Principal Honours and DistinctionsKnighted 1936. President, Institution of Locomotive Engineers 1927 and 1934. President, Institution of Mechanical Engineers 1936.Further ReadingF.A.S.Brown, 1961, Nigel Gresley, Locomotive Engineer, Ian Allan (full-length biography).John Bellwood and David Jenkinson, Gresley and Stanier. A Centenary Tribute (a good comparative account).See also: Bulleid, Oliver Vaughan SnellPJGRBiographical history of technology > Gresley, Sir Herbert Nigel
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29 система водяного отопления
Русско-английский военно-политический словарь > система водяного отопления
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30 паровое отопление с верхней разводкой
1) Engineering: steam-heating downfeed heating2) Makarov: downfeed systemУниверсальный русско-английский словарь > паровое отопление с верхней разводкой
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31 Nobel, Immanuel
[br]b. 1801 Gävle, Swedend. 3 September 1872 Stockholm, Sweden[br]Swedish inventor and industrialist, particularly noted for his work on mines and explosives.[br]The son of a barber-surgeon who deserted his family to serve in the Swedish army, Nobel showed little interest in academic pursuits as a child and was sent to sea at the age of 16, but jumped ship in Egypt and was eventually employed as an architect by the pasha. Returning to Sweden, he won a scholarship to the Stockholm School of Architecture, where he studied from 1821 to 1825 and was awarded a number of prizes. His interest then leaned towards mechanical matters and he transferred to the Stockholm School of Engineering. Designs for linen-finishing machines won him a prize there, and he also patented a means of transforming rotary into reciprocating movement. He then entered the real-estate business and was successful until a fire in 1833 destroyed his house and everything he owned. By this time he had married and had two sons, with a third, Alfred (of Nobel Prize fame; see Alfred Nobel), on the way. Moving to more modest quarters on the outskirts of Stockholm, Immanuel resumed his inventions, concentrating largely on India rubber, which he applied to surgical instruments and military equipment, including a rubber knapsack.It was talk of plans to construct a canal at Suez that first excited his interest in explosives. He saw them as a means of making mining more efficient and began to experiment in his backyard. However, this made him unpopular with his neighbours, and the city authorities ordered him to cease his investigations. By this time he was deeply in debt and in 1837 moved to Finland, leaving his family in Stockholm. He hoped to interest the Russians in land and sea mines and, after some four years, succeeded in obtaining financial backing from the Ministry of War, enabling him to set up a foundry and arms factory in St Petersburg and to bring his family over. By 1850 he was clear of debt in Sweden and had begun to acquire a high reputation as an inventor and industrialist. His invention of the horned contact mine was to be the basic pattern of the sea mine for almost the next 100 years, but he also created and manufactured a central-heating system based on hot-water pipes. His three sons, Ludwig, Robert and Alfred, had now joined him in his business, but even so the outbreak of war with Britain and France in the Crimea placed severe pressures on him. The Russians looked to him to convert their navy from sail to steam, even though he had no experience in naval propulsion, but the aftermath of the Crimean War brought financial ruin once more to Immanuel. Amongst the reforms brought in by Tsar Alexander II was a reliance on imports to equip the armed forces, so all domestic arms contracts were abruptly cancelled, including those being undertaken by Nobel. Unable to raise money from the banks, Immanuel was forced to declare himself bankrupt and leave Russia for his native Sweden. Nobel then reverted to his study of explosives, particularly of how to adapt the then highly unstable nitroglycerine, which had first been developed by Ascanio Sobrero in 1847, for blasting and mining. Nobel believed that this could be done by mixing it with gunpowder, but could not establish the right proportions. His son Alfred pursued the matter semi-independently and eventually evolved the principle of the primary charge (and through it created the blasting cap), having taken out a patent for a nitroglycerine product in his own name; the eventual result of this was called dynamite. Father and son eventually fell out over Alfred's independent line, but worse was to follow. In September 1864 Immanuel's youngest son, Oscar, then studying chemistry at Uppsala University, was killed in an explosion in Alfred's laboratory: Immanuel suffered a stroke, but this only temporarily incapacitated him, and he continued to put forward new ideas. These included making timber a more flexible material through gluing crossed veneers under pressure and bending waste timber under steam, a concept which eventually came to fruition in the form of plywood.In 1868 Immanuel and Alfred were jointly awarded the prestigious Letterstedt Prize for their work on explosives, but Alfred never for-gave his father for retaining the medal without offering it to him.[br]Principal Honours and DistinctionsImperial Gold Medal (Russia) 1853. Swedish Academy of Science Letterstedt Prize (jointly with son Alfred) 1868.BibliographyImmanuel Nobel produced a short handwritten account of his early life 1813–37, which is now in the possession of one of his descendants. He also had published three short books during the last decade of his life— Cheap Defence of the Country's Roads (on land mines), Cheap Defence of the Archipelagos (on sea mines), and Proposal for the Country's Defence (1871)—as well as his pamphlet (1870) on making wood a more physically flexible product.Further ReadingNo biographies of Immanuel Nobel exist, but his life is detailed in a number of books on his son Alfred.CM -
32 гравитационная система парового отопления с верхней разводкой
Construction: steam-heating down-feed gravity systemУниверсальный русско-английский словарь > гравитационная система парового отопления с верхней разводкой
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33 паровая гравитационная система отопления с нижней разводкой
Construction: steam-heating up-feed gravity systemУниверсальный русско-английский словарь > паровая гравитационная система отопления с нижней разводкой
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34 паровое отопление с побуждением
Construction: steam heating with mechanical system of circulationУниверсальный русско-английский словарь > паровое отопление с побуждением
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35 система парового подогрева
Karachaganak: steam heating medium systemУниверсальный русско-английский словарь > система парового подогрева
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36 система теплоснабжения от пуско-резервной котельной
heating [house boiler] steam systemРусско-английский словарь по радиационной безопасности > система теплоснабжения от пуско-резервной котельной
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37 установка
adjustment, apparatus, arrangement, array геофиз., complex, configuration, device, erection, facility, fitting, mill, gear, incorporation, insertion электрон., installation, layout, mount, mounting, outfit, placement, plant, rig, rigging, set, set-in, setting, setup, site, system, unit* * *устано́вка ж.1. ( оборудование) installation; ( агрегат) plant, set; (в зависимости от производства, получения какого-л. продукта, материала и т. п.) plant2. (процесс сборки, монтажа) installation, erection, mounting, assembly3. ( регулировка величины по прибору) adjustment; ( конкретной величины) settingабсорбцио́нная устано́вка — absorption plant, absorption unitустано́вка авари́йного пита́ния — emergency power supply unitагломери́рующая устано́вка — sintering plantбо́йлерная устано́вка — heating-water converter plantбурова́я устано́вка — drilling rigбыстрозамора́живающая устано́вка — quick-freeze plantустано́вка валко́в — roll adjustment; roll settingветроэнергети́ческая устано́вка — wind-driven electric plantвинтомото́рная устано́вка ав. — power plantводоподготови́тельная устано́вка — water-treatment systemводоумягчи́тельная устано́вка — water softenerвозду́шно-трелё́вочная устано́вка — flying machine, aerial skidderвулканизацио́нная устано́вка — vulcanizing plantвыпарна́я устано́вка — evaporator systemвыпарна́я, многоко́рпусная устано́вка — multiple-effect evaporator battery, multiple-effect evaporator systemвыпарна́я, одноко́рпусная устано́вка — single-effect evaporator systemвыпарна́я, прямото́чная устано́вка — forward-feed evaporator battery, forward-feed evaporator systemвыпарна́я устано́вка с паралле́льным пита́нием — parallel-feed evaporator battery, parallel-feed evaporator systemвыпарна́я устано́вка с паралле́льным то́ком ( не путать с устано́вкой паралле́льного пита́ния) — forward-feed evaporator battery, forward-feed system (not to be confused with a parallel-feed system)выпарна́я устано́вка с противото́ком — backward-feed evaporator battery, backward-feed evaporator systemустано́вка высотоме́ра ав. — altimeter settingустано́вка высотоме́ра по давле́нию на аэродро́ме ав. — QFE settingустано́вка высотоме́ра по давле́нию на у́ровне мо́ря — QNH settingгазогенера́торная устано́вка — gas generator, gas-generating plantгазотурби́нная устано́вка — gas-turbine plantгенера́торная устано́вка — generating plant, generating setгидрогенизацио́нная устано́вка — hydrogenation unitгидросилова́я устано́вка — water-power plantгребна́я устано́вка мор. — propulsion plantдви́гательная устано́вка — propulsion system, power plant, power unitдви́гательная, турби́нная устано́вка — turbine propulsion unitдегазацио́нная устано́вка — decontamination plantдезинфекцио́нно-душева́я устано́вка — disinfecting shower unitди́зельная устано́вка — diesel (engine) plantди́зель-электри́ческая устано́вка — diesel-electric plantустано́вка для вакууми́рования метал. — degassing plantустано́вка для вакууми́рования в ковше́ метал. — ladle degassing plantустано́вка для кондициони́рования во́здуха — см. установка кондиционирования воздухаустано́вка для приготовле́ния формо́вочного песка́ — sand-conditioning plantустано́вка для размора́живания — thawer, defrosterустано́вка для сублимацио́нной су́шки — freeze-drier, freeze-drying plantдождева́льная устано́вка — sprinkler installation, sprinkler systemдозиро́вочная устано́вка стр. — proportioning plantдои́льная устано́вка — milking installation, milking plantдои́льная устано́вка для дое́ния в молокопрово́д — pipe-line milking installationдои́льная устано́вка для дое́ния во фля́ги — in-churn milking outfitдои́льная, передвижна́я устано́вка — movable milking installationдои́льная, стациона́рная устано́вка — parlour milking installationдои́льная устано́вка ти́па ё́лочка — herring-bone (milking) bailдробестру́йная устано́вка — shot-blast unitустано́вка жи́дкого азо́та — liquid-nitrogen (production) plantустано́вка жи́дкого во́здуха — liquid-air (production) plantиндукцио́нная электротерми́ческая устано́вка — induction (electrothermic) plantустано́вка интерва́лов ( в печатающем устройстве) вчт. — line adjustmentиспари́тельная устано́вка — evaporator installationиспыта́тельная устано́вка — test unitкислоро́дная устано́вка — oxygen plantкомпле́ктная устано́вка — package plantкомпре́ссорная устано́вка — compressor plantустано́вка кондициони́рования во́здуха — air conditioning installation, air conditioning plant, air conditionerкормоприготови́тельная устано́вка — feed-processing plantкорообди́рочная устано́вка дер.-об. — barkerкоте́льная устано́вка — boiler installation, boiler plantкриоге́нная устано́вка — cryogenic plantлаборато́рная устано́вка — laboratory-scale plantла́зерная, голографи́ческая устано́вка — hololaserмодели́рующая устано́вка — simulatorморози́льная устано́вка — freezing installation, freezing plantмусоросжига́тельная устано́вка — (refuse) incineratorнагрева́тельная устано́вка — heating installation, heating plant, heating unitнасо́сная устано́вка — pump(ing) plantустано́вка на фо́кус — focusingустано́вка непреры́вного о́тжига — continuous annealing installationустано́вка непреры́вной разли́вки — continuous casting plantустано́вка нивели́ра — level set-up, level setting… тре́буется не́сколько устано́вок нивели́ра … — several level set-ups [level settings] may be necessaryустано́вка нулевы́х у́ровней ( в операционном усилителе) — zero adjustment, zero setting, balance check, balancingустано́вка нуля́ — zero adjustmentобеспы́ливающая устано́вка — dust catcher, dust-collecting plantобессо́ливающая устано́вка ( в водообработке) — demineralizing plantо́бжиговая устано́вка — метал., хим. calcining [roasting] plant; (в производстве огнеупоров и др. керамических изделий) burning [firing] plantобраба́тывающая устано́вка — processing plantустано́вка опо́р эл. — support erectionопресни́тельная устано́вка — (water-)desalinating plantо́пытная устано́вка ( не путать с эксперимента́льной устано́вкой) — pilot(-scale) plant (not to be confused with experimental plant)ороси́тельная устано́вка — sprinkler installation, sprinkler systemосвети́тельная устано́вка — lighting installation, lighting plant, lighting equipmentотопи́тельная устано́вка — heating installation, heating plantустано́вка паралле́льного пита́ния — parallel-feed systemпаросилова́я устано́вка — steam power plantпаротурби́нная устано́вка — steam-turbine plantперего́нная устано́вка — distillation plant, distillation unitпла́зменная, электродугова́я устано́вка — archeated plasma chamberустано́вка подтона́льного телеграфи́рования — брит. sub-audio telegraph set; амер. composite setподъё́мная устано́вка — hoisting plantустано́вка пожаротуше́ния — extinguishing installationустано́вка по перерабо́тке — processing plantустано́вка по перерабо́тке тряпья́ — rag-processing plantпредвари́тельная устано́вка — presettingустано́вка предвари́тельного охлажде́ния — precoolerпромы́шленная устано́вка — commercial [full-scale] plantпускова́я устано́вка косм. — launcherпылеприготови́тельная устано́вка — coal-pulverizing plantпылеулови́тельная устано́вка — dust removal [dust collecting] plantрадиацио́нная устано́вка — radiation plantрадиацио́нно-биологи́ческая устано́вка [РБУ] — radiobiological plantрадиацио́нно-физи́ческая устано́вка [РФУ] — radiophysical plantрадиацио́нно-хими́ческая устано́вка — radiochemical plantрадиоизото́пная устано́вка — radioisotope plantрадиолокацио́нная устано́вка — radar installationрезе́рвная устано́вка — stand-by plantрентге́новская устано́вка — X-ray apparatusрефрижера́торная устано́вка — refrigerating plantсва́рочная устано́вка — welding unitсва́рочная, двухпостова́я устано́вка — two-operator welding unitсва́рочная, однопостова́я устано́вка — single-operator welding unitсилова́я устано́вка — propulsion system, power plant, power unitосуществля́ть комплекта́цию силово́й устано́вки — build up a power plantразукомплекто́вывать силову́ю устано́вку — tear down a power plantсилова́я, винтомото́рная устано́вка — engine-propeller power plantсилова́я, возду́шно-реакти́вная устано́вка — air-breathing power plantсилова́я, вспомога́тельная устано́вка — auxiliary power unit, APUсмеси́тельная устано́вка — mixer, mixing plantустано́вка столбо́в — pole setting, polingтелевизио́нная устано́вка — TV camera unitтеплосилова́я устано́вка — thermal power plantтермоопресни́тельная устано́вка — thermal desalting plantустано́вка техни́ческого кислоро́да — tonnage oxygen plantтрави́льная устано́вка метал. — pickling installationтрубосва́рочная устано́вка — tube-welding [pipe-welding] plantтурби́нная устано́вка — turbine plantтурбогенера́торная устано́вка — turbine-generator set, turbogeneratorхи́мико-технологи́ческая устано́вка — chemical engineering plantхи́мико-технологи́ческая, полузаводска́я устано́вка — pilot(-scale process) plantхи́мико-технологи́ческая, сте́ндовая устано́вка — bench-scale (process) plantхлопкоочисти́тельная устано́вка — cotton cleaner, ginхлора́торная устано́вка — chlorination plantхолоди́льная устано́вка — refrigerating plantэксперимента́льная устано́вка — experimental plantэлектри́ческая устано́вка — electrical installationэнергосилова́я устано́вка — power plant -
38 gas
m.gas (fluido).con gas carbonated, sparkling (agua, bebida)a todo gas (informal) flat out, at top speed (peninsular Spanish)aun jugando a medio gas ganaron (informal) they won even though they weren't really trying (peninsular Spanish)gas butano butane (gas)gas hilarante laughing gasgas lacrimógeno tear gasgas mostaza mustard gasgas natural natural gas* * *1 (gen) gas\a todo gas familiar flat out, at full tilttener gases to have windagua con gas carbonated water, fizzy watergas butano butane gasgas ciudad town gasgas de escape exhaust fumes pluralgas hilarante laughing gasgas mostaza mustard gasgas natural natural gasgas noble inert gasgas pobre producer gas* * *noun m.* * *SM1) (=combustible) gas•
agua (mineral) con gas — sparkling (mineral) water•
agua (mineral) sin gas — still (mineral) watergas butano — butane, butane gas
gas licuado — liquefied gas; Chile [para uso doméstico] Calor gas ®
gas noble — noble gas, rare gas
gas propano — propane, propane gas
•
darle gas — * to step on the gas *a medio gas —
el coche iba a todo gas — the car was going full out o flat out *
perder gas —
el equipo comenzó la temporada con fuerza pero ha ido perdiendo gas — the team began the season well but has been running out of steam
los hinchas fueron perdiendo gas a medida que transcurría el partido — the fans gradually lost enthusiasm as the match progressed
3) pl gases (=emanaciones perjudiciales) fumeslos gases tóxicos que se emiten a la atmósfera — the toxic o poisonous fumes released into the atmosphere
tener gases — to have wind, have gas (EEUU)
* * *1) (Fís, Quím) gascocina a or de gas — gas cooker
a todo gas — (Esp fam) at full speed
darle gas — (Auto) (fam) to step on the gas (colloq)
2) gases masculino plural (Fisiol) wind, flatulence* * *= gas [gases/gasses, pl.].----* a gas = gas-powered.* agua con gas = carbonated water.* agua sin gas = still water.* a la luz de una lámpara de gas = by gaslight.* asfixiar con gas = gas.* a todo gas = full steam ahead, full-tilt, at full tilt, full-throttle, at full throttle, at top speed, at full blast, at full speed, at full stretch.* avanzar a todo gas = steam ahead, go + full steam ahead.* bombona de gas = gas bottle, gas cylinder, gas canister.* bombona de gas butano = butane cylinder, butane gas cylinder.* bombona de gas propano = propane cylinder, propane gas cylinder.* calentador de gas = gas heater.* cámara de gas = gas chamber.* cocina a gas = gas stove.* cocina de gas = gas stove.* colector de gases = exhaust manifold, inlet manifold.* con gas = carbonated.* contador del gas = gas meter.* de gas = gas-powered.* eliminar gases = pass + gas, break + wind, pass + wind.* emisión de gases = exhaust emission.* emisión de gases de efecto invernadero = carbon emission.* emisión de gas invernadero = greenhouse gas emission.* emitir gases = gas.* enfríado por gas = gas-cooled.* factura de electricidad, agua o gas = utility bill.* farola de gas = gas lamp.* fuego de gas = gas ring, gas ring burner.* fuga de gas = gas leak.* fuga de gas tóxico = toxic gas leak.* gas amoniacal = ammonia gas.* gas butano = butane gas.* gas ciudad = city gas.* gas combustible = fuel gas.* gas de bombona = cylinder gas.* gas del tubo de escape = exhaust fume, exhaust gas, exhaust.* gas de óxido de etileno = ethylene oxide gas.* gas de óxido de nitrógeno = nitrogen oxide gas.* gas en bombona = bottled gas.* gas halón = halon gas.* gas inerte = inert gas.* gas invernadero = greenhouse gas.* gas irritante = burning gas.* gas lacrimógeno = tear gas.* gas líquido = liquid gas.* gas metano = methane.* gas mostaza = mustard gas.* gas natural = natural gas.* gas nervioso = nerve gas, nerve agent.* gas neurotóxico = nerve agent.* gas noble = noble gas.* gas propano = propane gas.* gas que produce el efecto invernadero = greenhouse gas.* gas tóxico = toxic gas.* gas venenoso = poisonous gas.* gas volcánico = volcanic gas.* hornilla a gas = gas stove.* hornilla de gas = gas stove, gas hob, gas ring stove, gas ring cooker.* industria del gas = gas industry.* lámpara de gas = gaslight, gas lamp.* matar con gas = gas.* perder gas = lose + steam.* quedarse sin gas = lose + steam.* quemador de gas = gas ring, gas ring burner.* recursos de gas natural = gas resources, natural gas resources.* regulador de gas = gas regulator.* regulador de presión de gas = gas regulator.* sistema de emisión de gases = exhaust system.* sistema de extinción de incendios mediante gas halón = halon gas fire extinguishing system.* * *1) (Fís, Quím) gascocina a or de gas — gas cooker
a todo gas — (Esp fam) at full speed
darle gas — (Auto) (fam) to step on the gas (colloq)
2) gases masculino plural (Fisiol) wind, flatulence* * *= gas [gases/gasses, pl.].* a gas = gas-powered.* agua con gas = carbonated water.* agua sin gas = still water.* a la luz de una lámpara de gas = by gaslight.* asfixiar con gas = gas.* a todo gas = full steam ahead, full-tilt, at full tilt, full-throttle, at full throttle, at top speed, at full blast, at full speed, at full stretch.* avanzar a todo gas = steam ahead, go + full steam ahead.* bombona de gas = gas bottle, gas cylinder, gas canister.* bombona de gas butano = butane cylinder, butane gas cylinder.* bombona de gas propano = propane cylinder, propane gas cylinder.* calentador de gas = gas heater.* cámara de gas = gas chamber.* cocina a gas = gas stove.* cocina de gas = gas stove.* colector de gases = exhaust manifold, inlet manifold.* con gas = carbonated.* contador del gas = gas meter.* de gas = gas-powered.* eliminar gases = pass + gas, break + wind, pass + wind.* emisión de gases = exhaust emission.* emisión de gases de efecto invernadero = carbon emission.* emisión de gas invernadero = greenhouse gas emission.* emitir gases = gas.* enfríado por gas = gas-cooled.* factura de electricidad, agua o gas = utility bill.* farola de gas = gas lamp.* fuego de gas = gas ring, gas ring burner.* fuga de gas = gas leak.* fuga de gas tóxico = toxic gas leak.* gas amoniacal = ammonia gas.* gas butano = butane gas.* gas ciudad = city gas.* gas combustible = fuel gas.* gas de bombona = cylinder gas.* gas del tubo de escape = exhaust fume, exhaust gas, exhaust.* gas de óxido de etileno = ethylene oxide gas.* gas de óxido de nitrógeno = nitrogen oxide gas.* gas en bombona = bottled gas.* gas halón = halon gas.* gas inerte = inert gas.* gas invernadero = greenhouse gas.* gas irritante = burning gas.* gas lacrimógeno = tear gas.* gas líquido = liquid gas.* gas metano = methane.* gas mostaza = mustard gas.* gas natural = natural gas.* gas nervioso = nerve gas, nerve agent.* gas neurotóxico = nerve agent.* gas noble = noble gas.* gas propano = propane gas.* gas que produce el efecto invernadero = greenhouse gas.* gas tóxico = toxic gas.* gas venenoso = poisonous gas.* gas volcánico = volcanic gas.* hornilla a gas = gas stove.* hornilla de gas = gas stove, gas hob, gas ring stove, gas ring cooker.* industria del gas = gas industry.* lámpara de gas = gaslight, gas lamp.* matar con gas = gas.* perder gas = lose + steam.* quedarse sin gas = lose + steam.* quemador de gas = gas ring, gas ring burner.* recursos de gas natural = gas resources, natural gas resources.* regulador de gas = gas regulator.* regulador de presión de gas = gas regulator.* sistema de emisión de gases = exhaust system.* sistema de extinción de incendios mediante gas halón = halon gas fire extinguishing system.* * *una acumulación de gases nocivos a build-up of noxious gasesal arder despide gases tóxicos when it burns it emits toxic fumeslos asfixian con gas they gas themel anhídrido carbónico es un gas asfixiante carbon dioxide is an asphyxiantcalefacción/cocina a or de gas gas heating/cookera todo gas ( Esp fam): pasó a todo gas con su moto he raced o sped past on his motorbike, he whizzed past at top speed o at full tilt on his bike ( colloq)trabajamos a todo gas para terminar a tiempo we worked flat out o at full speed to finish on time ( colloq)¡vamos, dale gas! come on, step on it! o step on the gas!Compuestos:butane gas( Esp) town gas( Chi) town gascoal gaslaughing gastear gasusaron gases lacrimógenos they used tear gasliquified gasmustard gasnatural gas● gas neurotóxico or nerviosonerve gasnoble o rare gaspepper spraypropane gas● gas raronoble o rare gasB( Esp fam) (energía): la compañía está perdiendo or se está quedando sin gas the company is losing its thrust o impetusdespués de tres vueltas me quedé sin gas after three laps I ran out of steam* * *
gas sustantivo masculino
1 (Fís, Quím) gas;
gas ciudad town gas;
gas lacrimógeno/licuado tear/liquified gas
2
gas sustantivo masculino
1 gas: desprende gases nocivos, it gives off dangerous fumes
gas butano/ciudad, butane/town gas
gas mostaza/sarín, nerve/sarin gas
gas tóxico, poison gas
2 (de una bebida) fizz
bebidas con gas, fizzy drinks
3 Med gases, flatulence sing: el niño tiene gases, the baby has wind
' gas' also found in these entries:
Spanish:
acelerador
- acometida
- bombona
- butano
- cámara
- chorro
- conducción
- dar
- emanación
- emisión
- escaparse
- escape
- espita
- estufa
- exhalar
- flujo
- fuego
- fuga
- gasoducto
- gasolina
- gasolinera
- inflamarse
- irse
- lacrimógena
- lacrimógeno
- llave
- máscara
- mostaza
- pérdida
- recibo
- salirse
- surtidor
- abonado
- abrir
- agua
- asfixiante
- bencinera
- bolsa
- bomba
- burbuja
- calefacción
- cerrar
- cocina
- conectar
- contador
- cortar
- cuenta
- depósito
- ducto
- escapar
English:
board
- build-up
- butane
- convert
- cut off
- cylinder
- demonstration
- disconnect
- emit
- escape
- expansion
- fire
- fizz
- fizzy
- flat
- gas
- gas bag
- gas chamber
- gas cooker
- gas fire
- gas fittings
- gas heater
- gas mask
- gas oil
- gas oven
- gas station
- gasworks
- laughing gas
- lay on
- leak
- main
- nerve gas
- off
- pipe
- pipeline
- poison gas
- powered
- put on
- release
- soda
- sparkling
- still
- tap
- teargas
- bubble
- Calor Gas
- connect
- CS gas
- deposit
- diesel
* * *gas nm1. [fluido] gas;un horno de gas a gas oven;calefacción de gas gas heating;acaban de instalarnos el gas they've just connected the gas;con gas [agua, bebida] sparkling;Autdale gas step on the acceleratorgas butano butane (gas); CSur gas de cañería town gas;gas de carbón coal gas;Esp gas ciudad manufactured gas, Br town gas;gas hilarante laughing gas;gas de hulla coal gas;gas ideal ideal gas;gas inerte inert gas;gas lacrimógeno tear gas;gas licuado liquefied gas;Méx gas LP LPG, liquefied petroleum gas;gas mostaza mustard gas;gas natural natural gas;gas noble noble gas;gas de los pantanos marsh gas;gas perfecto ideal gas;gas propano propane gas;gas sarín sarin gas;gas tóxico poison gas2.gases [en el estómago] wind;3. Esp Fam [fuerza]aun jugando a medio gas ganaron they won even though they weren't really trying;quedarse sin gas to run out of steamleí el periódico a todo gas I read the newspaper as fast as I could* * *m1 FÍS, QUÍM gas;con gas sparkling, carbonated;sin gas still2:3:a todo gas flat out;a medio gas fig at reduced capacity;perder gas fig run out of steam* * *gas nm: gas, vapor, fumes plgas lagrimógeno: tear gas* * * -
39 ТЭЦ
1) General subject: TPP (thermal power plant), Central Heating and Power Plant2) Engineering: cogeneration plant, combined heat power plant, dual-purpose station, heat power plant, heat-electric generating plant, heat-electric generating station, heat-electric generation plant, heating and power plant, power and heating plant, thermoelectric plant, total energy power station, waste-to-energy cogeneration plant3) Construction: combined heat and power station, heat and power station, thermal power station4) Economy: steam plant, steam-electric plant5) Power engineering: CHP (Combined Heat and Power), thermal plant, combined heat and power plant, теплоэлектростанция, теплоэлектроценталь, co-gen, co-generation unit, cogen, power cogen unit6) Heating: HES (HPP or HEP) (Heating Electrical Station (Heating Power Plant or Heating Electrical Plant))7) Makarov: heat electric generation plant (сокр. от теплоэлектроцентраль), station, steam power plant, thermoelectric power-and-heating (сокр. от теплоэлектроцентраль), тепловая электростанция, теплоэлектроцентраль8) Energy system: cogen plant9) oil&gas: steam and gas power generator, ТЭС, парогазовая электростанция, теплоэнергетическая станция, электростанция с комбинированным производством электроэнергии и тепла10) Electricity: TEC11) Electrical engineering: cogeneration station, combined heat and power production plant, steam station -
40 установка
1. ж. installation; plant, set; plantшина стирания; шина сброса; шина установки нуля — reset line
2. ж. installation, erection, mounting, assembly3. ж. adjustment; settingустановка валков — roll adjustment; roll setting
установка подтонального телеграфирования — sub-audio telegraph set; composite set
Синонимический ряд:указание (сущ.) директива; инструкция; предписание; указание
См. также в других словарях:
steam heating — Heating system in which steam from a boiler is piped to radiators in space to be heated … Dictionary of automotive terms
steam heating — noun a heating system in which steam is generated in boilers and piped to radiators • Syn: ↑steam heat • Hypernyms: ↑heating system, ↑heating plant, ↑heating, ↑heat * * * noun : a system of heating (as for a building) in which steam gene … Useful english dictionary
heating system — noun utility to warm a building the heating system wasn t working they have radiant heating • Syn: ↑heating plant, ↑heating, ↑heat • Derivationally related forms: ↑heat ( … Useful english dictionary
Steam heating — For articles on Steam heating see:* District heating * Geothermal heating * Heating system * Seattle Steam Company * Steam generator (railroad) … Wikipedia
steam heating — a heating system utilizing steam circulated through radiators and pipes. [1875 80] * * * … Universalium
Heating Hot Water — is water used to heat a building. Like steam HVAC systems, the water carries heat as it goes through a pipe to its destination, which is some sort of radiator.Unlike many steam systems, there must be a pump to circulate the water since it does… … Wikipedia
Steam clock — A steam clock is a clock which is fully or partially powered by a steam engine. Only a few functioning steam clocks exist, most designed and built by Canadian horologist Raymond Saunders for display in urban public spaces. Steam clocks built by… … Wikipedia
Steam generator (railroad) — Steam generator is the term used to describe a type of boiler used to produce steam for climate control and potable water heating in railroad passenger cars. The output of a railroad steam generator is low pressure, saturated steam that is passed … Wikipedia
Steam jet cooling — uses a high pressure jet of steam to cool water or other fluid media. Typical uses include industrial sites, where a suitable steam supply already exists for other purposes or, historically, for air conditioning on passenger trains which use… … Wikipedia
heating — I Process of raising the temperature of an enclosed space. Heat can be delivered by convection, radiation, and thermal conduction. With the exception of the ancient Romans, who developed a form of central heating, most cultures relied on direct… … Universalium
steam heat — noun a heating system in which steam is generated in boilers and piped to radiators • Syn: ↑steam heating • Hypernyms: ↑heating system, ↑heating plant, ↑heating, ↑heat * * * noun : heat given off by steam in condensing … Useful english dictionary