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1 propeller laboratory
Морской термин: лаборатория движителей -
2 propeller laboratory
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3 лаборатория движителей
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4 лаборатория движителей
судовой движитель; гребной винт — ship propeller
Русско-английский военно-политический словарь > лаборатория движителей
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5 гидравлический движитель
судовой движитель; гребной винт — ship propeller
Русско-английский военно-политический словарь > гидравлический движитель
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6 лаборатория движителей
Naval: propeller laboratoryУниверсальный русско-английский словарь > лаборатория движителей
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7 plant
1) растение
2) насаживать
3) поджимный
4) сажать
5) установка
6) <industr.> завод
7) агрегат
8) фабрика
9) станция
– assembly plant
– automatic plant
– automobile plant
– Bessemer plant
– calcining plant
– casting plant
– chemicals plant
– chlorination plant
– coking plant
– commercial plant
– compressor plant
– concrete-mixing plant
– cryogenic plant
– decontamination plant
– degassing plant
– diesel plant
– distillation plant
– distribution plant
– dye plant
– engineering plant
– feed-processing plant
– fodder plant
– food plant
– formula-feed plant
– garbage-disposal plant
– generating plant
– handling plant
– hardware plant
– headquarters plant
– heavy-chemicals plant
– hoisting plant
– ice-making plant
– isolated plant
– laboratory-scale plant
– lighting plant
– machine-tool plant
– mixing plant
– native plant
– nuclear plant
– oil-extraction plant
– opener plant
– outside plant
– oxygen plant
– oxygen-converter plant
– package plant
– pasteurizing plant
– pilot plant
– pilot-production plant
– pipe-rolling plant
– plant beets
– plant capacity
– plant compressor
– plant equation
– plant lag
– plant standard
– power plant
– processing plant
– proportioning plant
– propulsion plant
– pumping plant
– radiation plant
– radiobiological plant
– radiochemical plant
– radioisotope plant
– radiophysical plant
– rag-processing plant
– refrigerating plant
– rendering plant
– roasting plant
– salt-making plant
– sintering plant
– sprinkler plant
– stand-by plant
– steam-gas plant
– steam-turbine plant
– steel-making plant
– superphosphate plant
– tractor plant
– tube-welding plant
– turbine plant
– water-desalinating plant
– water-treatment plant
– welding plant
chemical engineering plant — химико-технологическая установка
coal-burning power plant — электростанция на твердом топливе
electric power plant — силовая электроустановка, <engin.> электростанция
engine-propeller power plant — винтомоторная силовая установка
heat-electric generating plant — теплофикационная электростанция
hydroelectric power plant — <energ.> гидростанция, гидроэлектростанция, гэс
integrated metallurgical plant — <metal.> завод с законченным металлургическим циклом
integrated steel plant — <metal.> комбинат металлургический
nitrogen fertilizer plant — <agric.> завод азотно-туковый
power plant topping — <engin.> надстройка
preparation plant output — < mining> выход продуктов обогащения
wind-turbine electric plant — <energ.> электростанция ветровая
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8 мешалка
1) General subject: churn, dolly (для белья), mixer2) Medicine: (лабораторная) stirrer3) Engineering: agitator, beater (маслобойки, фризера), blender, hog (в черпальном чане), kneading machine, mixing machine, oar, scum breaker, tempering mill, thimble (для стекломассы)4) Construction: blunger, shearing device, mill5) Mining: disintegrator, stirring tool6) Forestry: hog shaft (в распускной машине), impeller (сортировки), runner7) Oil: amalgamator, kneading mill, stirrer (для бурового раствора), stirring apparatus, stirring device, stirring machine, washer, stirrer8) Laboratory equipment: actuator10) Coolers: agitating apparatus11) Cellulose: impeller12) Polymers: blending machine, disperser, dissolver, mixing apparatus, mixing device, stirring mechanism, propeller13) Automation: churn mixer, paddle14) Arms production: mixing machine (для перемешивания пороха)15) Makarov: agitating unit, circulator, stirrer (см.тж. agitator, mixer), stirring unit -
9 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 -
10 marine
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11 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 -
12 Maxim, Sir Hiram Stevens
[br]b. 5 February 1840 Brockway's Mills, Maine, USAd. 24 November 1916 Streatham, London, England[br]American (naturalized British) inventor; designer of the first fully automatic machine gun and of an experimental steam-powered aircraft.[br]Maxim was born the son of a pioneer farmer who later became a wood turner. Young Maxim was first apprenticed to a carriage maker and then embarked on a succession of jobs before joining his uncle in his engineering firm in Massachusetts in 1864. As a young man he gained a reputation as a boxer, but it was his uncle who first identified and encouraged Hiram's latent talent for invention.It was not, however, until 1878, when Maxim joined the first electric-light company to be established in the USA, as its Chief Engineer, that he began to make a name for himself. He developed an improved light filament and his electric pressure regulator not only won a prize at the first International Electrical Exhibition, held in Paris in 1881, but also resulted in his being made a Chevalier de la Légion d'honneur. While in Europe he was advised that weapons development was a more lucrative field than electricity; consequently, he moved to England and established a small laboratory at Hatton Garden, London. He began by investigating improvements to the Gatling gun in order to produce a weapon with a faster rate of fire and which was more accurate. In 1883, by adapting a Winchester carbine, he successfully produced a semi-automatic weapon, which used the recoil to cock the gun automatically after firing. The following year he took this concept a stage further and produced a fully automatic belt-fed weapon. The recoil drove barrel and breechblock to the vent. The barrel then halted, while the breechblock, now unlocked from the former, continued rearwards, extracting the spent case and recocking the firing mechanism. The return spring, which it had been compressing, then drove the breechblock forward again, chambering the next round, which had been fed from the belt, as it did so. Keeping the trigger pressed enabled the gun to continue firing until the belt was expended. The Maxim gun, as it became known, was adopted by almost every army within the decade, and was to remain in service for nearly fifty years. Maxim himself joined forces with the large British armaments firm of Vickers, and the Vickers machine gun, which served the British Army during two world wars, was merely a refined version of the Maxim gun.Maxim's interests continued to occupy several fields of technology, including flight. In 1891 he took out a patent for a steam-powered aeroplane fitted with a pendulous gyroscopic stabilizer which would maintain the pitch of the aeroplane at any desired inclination (basically, a simple autopilot). Maxim decided to test the relationship between power, thrust and lift before moving on to stability and control. He designed a lightweight steam-engine which developed 180 hp (135 kW) and drove a propeller measuring 17 ft 10 in. (5.44 m) in diameter. He fitted two of these engines into his huge flying machine testrig, which needed a wing span of 104 ft (31.7 m) to generate enough lift to overcome a total weight of 4 tons. The machine was not designed for free flight, but ran on one set of rails with a second set to prevent it rising more than about 2 ft (61 cm). At Baldwyn's Park in Kent on 31 July 1894 the huge machine, carrying Maxim and his crew, reached a speed of 42 mph (67.6 km/h) and lifted off its rails. Unfortunately, one of the restraining axles broke and the machine was extensively damaged. Although it was subsequently repaired and further trials carried out, these experiments were very expensive. Maxim eventually abandoned the flying machine and did not develop his idea for a stabilizer, turning instead to other projects. At the age of almost 70 he returned to the problems of flight and designed a biplane with a petrol engine: it was built in 1910 but never left the ground.In all, Maxim registered 122 US and 149 British patents on objects ranging from mousetraps to automatic spindles. Included among them was a 1901 patent for a foot-operated suction cleaner. In 1900 he became a British subject and he was knighted the following year. He remained a larger-than-life figure, both physically and in character, until the end of his life.[br]Principal Honours and DistinctionsChevalier de la Légion d'Honneur 1881. Knighted 1901.Bibliography1908, Natural and Artificial Flight, London. 1915, My Life, London: Methuen (autobiography).Further ReadingObituary, 1916, Engineer (1 December).Obituary, 1916, Engineering (1 December).P.F.Mottelay, 1920, The Life and Work of Sir Hiram Maxim, London and New York: John Lane.Dictionary of National Biography, 1912–1921, 1927, Oxford: Oxford University Press.See also: Pilcher, Percy SinclairCM / JDSBiographical history of technology > Maxim, Sir Hiram Stevens
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