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1 печь, загружаемая сверху
1) Metallurgy: top-charge furnace, top-charging furnace2) Makarov: top-charged furnaceУниверсальный русско-английский словарь > печь, загружаемая сверху
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2 печь с завалкой сверху
Metallurgy: top-charge furnace, top-charging furnaceУниверсальный русско-английский словарь > печь с завалкой сверху
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3 печь с загрузкой сверху
Engineering: top-charge furnace, top-charged furnaceУниверсальный русско-английский словарь > печь с загрузкой сверху
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4 электродуговая печь с загрузкой сверху
электродуговая печь с загрузкой сверху
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[Я.Н.Лугинский, М.С.Фези-Жилинская, Ю.С.Кабиров. Англо-русский словарь по электротехнике и электроэнергетике, Москва, 1999 г.]Тематики
- электротехника, основные понятия
EN
Русско-английский словарь нормативно-технической терминологии > электродуговая печь с загрузкой сверху
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5 печь
broiler, furnace, heater, oven, stove* * *печь ж.1. furnaceзагружа́ть печь — charge (e. g., a metal) into a furnaceпечь остано́влена для сме́ны футеро́вки — the furnace is off for a reliningпечь рабо́тает на (напр. жидком) [m2]то́пливе — the furnace is fired with (e. g., liquid) fuelраста́пливать печь — fire up a furnaceтопи́ть печь — fire a furnaceфутерова́ть печь — line a furnace2. (для нагрева до сравнительно невысоких температур, ниже температуры плавления) oven3. (для обжига, сушки и прокаливания) kiln4. (для сушки изложниц, форм и стержней) stove5. (для выпечки хлеба, приготовления пищи) oven6. (для обогрева, особенно жилища) stove7. горн. breakthrough, bord, rise entry, cut-throughагломерацио́нная печь — sintering furnaceпечь бараба́нного ти́па — drum-type furnaceбискви́тная печь — biscuit ovenва́нная печь — bath [tank] furnaceватержаке́тная печь — water jacket furnaceва́фельная печь — wafer ovenвозго́ночная печь — subliming furnaceвосстанови́тельная печь — reduction furnaceвраща́ющаяся печь1. rotating furnace2. rotary kilnвраща́ющаяся, бараба́нная печь — rotary drum-type furnaceвулканизацио́нная печь — vulcanizing [curing] ovenвысокочасто́тная печь — high-frequency furnaceга́зовая печь1. gas(-fired) furnace2. gas(-fired) kiln; gas(-fired) ovenгартоплави́льная печь полигр. — type metal melting furnaceгипсообжига́тельная печь — plaster kilnголла́ндская печь — Dutch ovenгоршко́вая печь — pot furnaceдистилляцио́нная печь — distilling furnaceпечь для глазурова́ния — glaze kilnпечь для кальцини́рования — calcining ovenпечь для о́бжига кирпича́ — brick kilnпечь для па́йки — brazing furnaceпечь для пла́вки на штейн — matting furnaceпечь для рафини́рования — affinage furnaceдо́менная печь — blast furnace (см. тж. домна)выдува́ть до́менную печь — blow out a blast furnaceдержа́ть до́менную печь под дутьё́м — keep a furnace in blastзадува́ть до́менную печь — blow in a blast furnaceдо́менная печь с конве́йерной пода́чей — belt-charged blast furnaceдровяна́я печь — wood-burning stoveдугова́я печь — electric arc furnaceжарова́я печь — direct heat ovenпечь, загружа́емая све́рху — top-charged furnaceзака́лочная печь — hardening furnaceзейгеро́вочная печь — liquating [dross(ing) ] furnaceзолотоплави́льная печь — bullion furnaceизвестеобжига́тельная печь — lime kilnиндукцио́нная печь — induction furnaceиндукцио́нная, кана́льная печь — submerged-resistor induction furnaceиндукцио́нная, ти́гельная печь — coreless induction furnaceка́мерная печь1. chamber furnace2. chamber kiln; chamber ovenкана́льная печь — hot-air ovenкача́ющаяся печь — tilting furnaceпечь кипя́щего сло́я — fluidized bed furnaceкирпичеобжига́тельная печь — brick kilnки́слая печь — acid-lined furnaceко́ксовая печь — coke ovenко́ксовая печь с вертика́лами — vertical-flued coke ovenко́ксовая печь с ула́вливанием хими́ческих проду́ктов — chemical-recovery coke ovenко́ксовая, узкока́мерная печь — slab coke ovenко́ксовая, у́льевая печь — beehive coke ovenколо́дезная печь метал. — pit furnaceколпако́вая печь — bell(-type) furnaceкольцева́я печь — ring [annular] furnaceконве́йерная печь — travelling ovenконта́ктная печь — catalyst furnaceкопти́льная печь — smoking kilnкузне́чная печь — forging furnaceкупеляцио́нная печь — cupel(ing) furnace, cupelпечь лё́гкого кре́кинга — viscosity breaking furnaceлите́йная печь — foundry furnaceлю́лечная печь — (swinging-)tray ovenмарте́новская печь — open-hearth furnaceмарте́новская, ки́слая печь — acid open-hearth furnaceмарте́новская, основна́я печь — basic open-hearth furnaceметоди́ческая печь — continuous furnaceмногопо́довая печь — multihearth furnaceмногоя́русная печь — multideck ovenмусоросжига́тельная печь — incineratorму́фельная печь — muffle furnaceнагрева́тельная печь — heating furnace; ( для слитков) reheating furnaceпечь непреры́вного де́йствия1. continuous furnace2. continuous kilnнормализацио́нная печь — normalizing furnaceобжа́рочная печь — roasterо́бжиговая печь — kiln; oven, roasting furnace, roaster; ( в производстве керамических изделий) firing kilnзаде́лывать отве́рстия в о́бжиговой пе́чи — close the kilnо́бжиговая, гонча́рная печь — pottery kilnо́бжиговая, многопо́лочная печь ( для обжига колчедана) — multishelf furnaceо́бжиговая печь с кипя́щим сло́ем — fluidized-bed [fluid-bed] roasterо́бжиговая печь с механи́ческим перегреба́нием — mechanical calcining ovenо́бжиговая, тру́бчатая враща́ющаяся печь — tubular rotary kilnодноя́русная печь — one-deck ovenопа́лочная печь — singeing ovenосновна́я печь — basic-lined furnaceотжига́тельная печь — annealing furnaceотража́тельная печь1. reverberatory furnace2. reverberatory kilnпечь периоди́ческого де́йствия1. batch furnace2. batch kiln, batch ovenплави́льная печь — melting furnaceплави́льная, ти́гельная печь — crucible melting furnaceплави́льная, ша́хтная печь — shaft melting furnaceпла́зменная печь — plasm furnaceплазменнодугова́я печь — plasm-arc furnaceпла́менная печь — combustion furnaceпроби́рная печь — assay furnaceпромы́шленная печь — industrial furnaceпроходна́я печь — continuous furnaceпечь прямо́го нагре́ва — directly fuel kilnрегенерати́вная печь — regenerative furnaceрекуперати́вная печь — recuperative furnaceрето́ртная печь — retort furnaceро́торная печь — rotor furnace, rotor vesselрудовосстанови́тельная печь — oresmelting furnaceруднотерми́ческая печь — ore-smelting furnaceрудообжига́тельная печь — ore-roasting furnace, ore roasterрудоплави́льная печь — smelting furnaceрыбокопти́льная печь — fish smoking kilnсва́рочная печь — welding furnaceпечь с ве́рхним отопле́нием — top-fired kilnпечь с враща́ющимся по́дом1. rotary [rotating] hearth furnace2. rotary [rotating] hearth kiln; rotary [rotating] hearth ovenпечь с выдвижны́м (выкатны́м) по́дом — car-bottom [car-type] furnaceпечь с вы́пуском пла́вки в два ковша́ — bifurcated furnaceпечь с конве́йерным по́дом1. conveyer furnace2. travelling sole ovenпечь сопротивле́ния — (с электродами, вводимыми в шихту, которая разогревается проходящими через неё токами) resistance furnace; (с нагревательными элементами в виде сопротивлений, несоприкасающимися с шихтой) resistor furnaceсталеплави́льная печь — steel melting furnaceстациона́рная печь — fixed furnaceстеклова́ренная печь — glassmaking furnaceсуши́льная печь — drying kiln; drying ovenсуши́льная печь для сухаре́й — rusk ovenпечь с шага́ющим по́дом — walking-beam furnaceтерми́ческая печь — heat-treating furnaceти́гельная печь — crucible furnaceтолка́тельная печь — pusher-type furnaceтоми́льная печь — soaking pitтру́бчатая печь — tube furnaceтунне́льная печь — tunnel kiln; tunnel ovenуглевыжига́тельная печь — charcoal kilnфорсу́ночная печь — burner-feed furnaceхлебопека́рная печь — baking ovenцельноосно́вная печь — all-basic furnaceцементацио́нная печь — case hardening furnaceцементообжига́тельная печь — cement kilnпечь цикло́нного ти́па — cyclone furnaceцинкодистилляцио́нная печь — zinc (distillation) furnaceша́хтная печь — shaft furnaceша́хтная, сыроду́тная печь — bloomeryша́хтная, электри́ческая печь для хлори́рования ( в производстве магния) — electric chlorinator, chlorination furnaceшлаковозго́нная печь ( в производстве свинца) — slag-fuming [slag-sublimate on] furnaceщелева́я печь — slot-type furnaceэлектри́ческая печь — electric furnaceэлектродугова́я печь — electric arc furnaceэлектролити́ческая печь — electrolytic furnaceэлектроннолучева́я печь — electron beam furnace -
6 Gicht
f; -, kein Pl.; MED. gout—* * *die Gicht(Krankheit) gout* * *Gịcht [gɪçt]f -, -en1) no pl (MED, BOT) gout* * *<->[ˈgɪçt]die \Gicht haben to suffer from gout* * *die; Gicht: gout* * *Gicht1 f; -, kein pl; MED gout* * *die; Gicht: gout* * *nur sing. f.gout n. -
7 печь
1. ж. furnace2. ж. kiln3. ж. ovenкруглая, ульевая печь периодического действия — beehive oven
4. ж. stoveпоходная кухня, переносная, лагерная печь — camp stove
5. ж. горн. breakthrough, bord, rise entry, cut-throughСинонимический ряд:жгут (глаг.) жарят; жгут; жгутся; калят; палят; припекают -
8 электродуговая печь с загрузкой сверху
1) Engineering: top-charged arc furnace2) Electrical engineering: top-charge arc furnaceУниверсальный русско-английский словарь > электродуговая печь с загрузкой сверху
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9 Parry, George
SUBJECT AREA: Metallurgy[br]fl. 1800–1850 Wales[br]Welsh ironmaker and inventor of the bell and hopper for blastfurnaces.[br]Until the mid-nineteenth century, blast furnaces were open at the top to facilitate loading of the iron ore, fuel and flux (the charge). However, that arrangement allowed the hot gases produced in the furnace to escape, whereas they could have been used to heat boilers or the incoming air blast. Attempts had been made to capture the fugitive gases, but they had all failed until George Parry devised his bell and hopper equipment for dosing the throat or top of the furnace. He fixed an inverted cone or hopper inside the throat and arranged inside it a cast-iron bell that could be raised or lowered. When in the raised position, it was in contact with the underside of the hopper, thus sealing the furnace. The hot gases could then be led off through a large pipe to do useful work. The charge was dropped onto the bell, and when enough had accumulated there the bell was lowered, allowing the charge to fall into the furnace. The gas escaped only for the brief period that the bell was lowered. The advantages of this arrangement were soon realized by other ironmasters and it was quite rapidly, and then generally, adopted. The device was still in use in the 1990s, with modifications.[br]Bibliography1858, "On the principal causes of derangements in blast furnaces", Proceedings of the South Wales Institute of Engineers 1:26–39 (describes his improvements to the blast furnace), 28 ff. (relates to the improvements in the charging arrangements).Further ReadingW.K.V.Gale, 1969, Iron and Steel, London: Longmans, p. 52.LRD -
10 Gicht
f < metall> (Beschickungsöffnung an Hochofen) ■ furnace throat; furnace firing throat; furnace top -
11 Stephenson, Robert
[br]b. 16 October 1803 Willington Quay, Northumberland, Englandd. 12 October 1859 London, England[br]English engineer who built the locomotive Rocket and constructed many important early trunk railways.[br]Robert Stephenson's father was George Stephenson, who ensured that his son was educated to obtain the theoretical knowledge he lacked himself. In 1821 Robert Stephenson assisted his father in his survey of the Stockton \& Darlington Railway and in 1822 he assisted William James in the first survey of the Liverpool \& Manchester Railway. He then went to Edinburgh University for six months, and the following year Robert Stephenson \& Co. was named after him as Managing Partner when it was formed by himself, his father and others. The firm was to build stationary engines, locomotives and railway rolling stock; in its early years it also built paper-making machinery and did general engineering.In 1824, however, Robert Stephenson accepted, perhaps in reaction to an excess of parental control, an invitation by a group of London speculators called the Colombian Mining Association to lead an expedition to South America to use steam power to reopen gold and silver mines. He subsequently visited North America before returning to England in 1827 to rejoin his father as an equal and again take charge of Robert Stephenson \& Co. There he set about altering the design of steam locomotives to improve both their riding and their steam-generating capacity. Lancashire Witch, completed in July 1828, was the first locomotive mounted on steel springs and had twin furnace tubes through the boiler to produce a large heating surface. Later that year Robert Stephenson \& Co. supplied the Stockton \& Darlington Railway with a wagon, mounted for the first time on springs and with outside bearings. It was to be the prototype of the standard British railway wagon. Between April and September 1829 Robert Stephenson built, not without difficulty, a multi-tubular boiler, as suggested by Henry Booth to George Stephenson, and incorporated it into the locomotive Rocket which the three men entered in the Liverpool \& Manchester Railway's Rainhill Trials in October. Rocket, was outstandingly successful and demonstrated that the long-distance steam railway was practicable.Robert Stephenson continued to develop the locomotive. Northumbrian, built in 1830, had for the first time, a smokebox at the front of the boiler and also the firebox built integrally with the rear of the boiler. Then in Planet, built later the same year, he adopted a layout for the working parts used earlier by steam road-coach pioneer Goldsworthy Gurney, placing the cylinders, for the first time, in a nearly horizontal position beneath the smokebox, with the connecting rods driving a cranked axle. He had evolved the definitive form for the steam locomotive.Also in 1830, Robert Stephenson surveyed the London \& Birmingham Railway, which was authorized by Act of Parliament in 1833. Stephenson became Engineer for construction of the 112-mile (180 km) railway, probably at that date the greatest task ever undertaken in of civil engineering. In this he was greatly assisted by G.P.Bidder, who as a child prodigy had been known as "The Calculating Boy", and the two men were to be associated in many subsequent projects. On the London \& Birmingham Railway there were long and deep cuttings to be excavated and difficult tunnels to be bored, notoriously at Kilsby. The line was opened in 1838.In 1837 Stephenson provided facilities for W.F. Cooke to make an experimental electrictelegraph installation at London Euston. The directors of the London \& Birmingham Railway company, however, did not accept his recommendation that they should adopt the electric telegraph and it was left to I.K. Brunel to instigate the first permanent installation, alongside the Great Western Railway. After Cooke formed the Electric Telegraph Company, Stephenson became a shareholder and was Chairman during 1857–8.Earlier, in the 1830s, Robert Stephenson assisted his father in advising on railways in Belgium and came to be increasingly in demand as a consultant. In 1840, however, he was almost ruined financially as a result of the collapse of the Stanhope \& Tyne Rail Road; in return for acting as Engineer-in-Chief he had unwisely accepted shares, with unlimited liability, instead of a fee.During the late 1840s Stephenson's greatest achievements were the design and construction of four great bridges, as part of railways for which he was responsible. The High Level Bridge over the Tyne at Newcastle and the Royal Border Bridge over the Tweed at Berwick were the links needed to complete the East Coast Route from London to Scotland. For the Chester \& Holyhead Railway to cross the Menai Strait, a bridge with spans as long-as 460 ft (140 m) was needed: Stephenson designed them as wrought-iron tubes of rectangular cross-section, through which the trains would pass, and eventually joined the spans together into a tube 1,511 ft (460 m) long from shore to shore. Extensive testing was done beforehand by shipbuilder William Fairbairn to prove the method, and as a preliminary it was first used for a 400 ft (122 m) span bridge at Conway.In 1847 Robert Stephenson was elected MP for Whitby, a position he held until his death, and he was one of the exhibition commissioners for the Great Exhibition of 1851. In the early 1850s he was Engineer-in-Chief for the Norwegian Trunk Railway, the first railway in Norway, and he also built the Alexandria \& Cairo Railway, the first railway in Africa. This included two tubular bridges with the railway running on top of the tubes. The railway was extended to Suez in 1858 and for several years provided a link in the route from Britain to India, until superseded by the Suez Canal, which Stephenson had opposed in Parliament. The greatest of all his tubular bridges was the Victoria Bridge across the River St Lawrence at Montreal: after inspecting the site in 1852 he was appointed Engineer-in-Chief for the bridge, which was 1 1/2 miles (2 km) long and was designed in his London offices. Sadly he, like Brunel, died young from self-imposed overwork, before the bridge was completed in 1859.[br]Principal Honours and DistinctionsFRS 1849. President, Institution of Mechanical Engineers 1849. President, Institution of Civil Engineers 1856. Order of St Olaf (Norway). Order of Leopold (Belgium). Like his father, Robert Stephenson refused a knighthood.Further ReadingL.T.C.Rolt, 1960, George and Robert Stephenson, London: Longman (a good modern biography).J.C.Jeaffreson, 1864, The Life of Robert Stephenson, London: Longman (the standard nine-teenth-century biography).M.R.Bailey, 1979, "Robert Stephenson \& Co. 1823–1829", Transactions of the Newcomen Society 50 (provides details of the early products of that company).J.Kieve, 1973, The Electric Telegraph, Newton Abbot: David \& Charles.PJGR
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электродуговая печь с загрузкой сверху — — [Я.Н.Лугинский, М.С.Фези Жилинская, Ю.С.Кабиров. Англо русский словарь по электротехнике и электроэнергетике, Москва, 1999 г.] Тематики электротехника, основные понятия EN top charge arc furnace … Справочник технического переводчика
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