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1 internal combustion turbine
English-Spanish technical dictionary > internal combustion turbine
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2 internal combustion turbine
Автомобильный термин: турбина внутреннего сгоранияУниверсальный англо-русский словарь > internal combustion turbine
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3 internal-combustion turbine
1) Морской термин: газовая турбина2) Техника: турбина внутреннего сгоранияУниверсальный англо-русский словарь > internal-combustion turbine
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4 internal-combustion turbine
turbina spalinowaEnglish-Polish dictionary for engineers > internal-combustion turbine
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5 internal combustion turbine
English-russian automobile dictionary > internal combustion turbine
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6 internal-combustion turbine
• турбина с вътрешно горенеEnglish-Bulgarian polytechnical dictionary > internal-combustion turbine
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7 internal-combustion turbine
English-Russian marine dictionary > internal-combustion turbine
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8 internal combustion turbine
Англо-русский словарь по машиностроению > internal combustion turbine
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9 gas turbine internal combustion
pembakaran dakhil turbin gasEnglish-Indonesian dictionary > gas turbine internal combustion
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10 internal
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11 internal
- internal-combustion - internal combustion - internal combustion turbine - internal crack - internal dimension of loading space - internal expanding brake - internal expanding shoes - internal leakage - internal member - internal resistance - internal rigity - internal splines - internal structure - internal teeth - internal toothing - internal work transport -
12 engine
двигатель; мотор; машинаbuzz up an engine — жарг. запускать двигатель
clean the engine — прогазовывать [прочищать] двигатель (кратковременной даней газа)
engine of bypass ratio 10: 1 — двигатель с коэффициентом [степенью] двухконтурности 10:1
flight discarded jet engine — реактивный двигатель, отработавший лётный ресурс
kick the engine over — разг. запускать двигатель
lunar module ascent engine — подъёмный двигатель лунного модуля [отсека]
monofuel rocket engine — ЖРД на однокомпонентном [унитарном] топливе
open the engine up — давать газ, увеличивать тягу или мощность двигателя
prepackaged liquid propellant engine — ЖРД на топливе длительного хранения; заранее снаряжаемый ЖРД
production(-standard, -type) engine — серийный двигатель, двигатель серийного образца [типа]
return and landing engine — ксм. двигатель для возвращения и посадки
reversed rocket engine — тормозной ракетный двигатель; ксм. тормозная двигательная установка
run up the engine — опробовать [«гонять»] двигатель
secure the engine — выключать [останавливать, глушить] двигатель
shut down the engine — выключать [останавливать, глушить] двигатель
shut off the engine — выключать [останавливать, глушить] двигатель
solid(-fuel, -grain) rocket engine — ракетный двигатель твёрдого топлива
turn the engine over — проворачивать [прокручивать] двигатель [вал двигателя]
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13 Ricardo, Sir Harry Ralph
[br]b. 26 January 1885 London, Englandd. 18 May 1974 Graffham, Sussex, England[br]English mechanical engineer; researcher, designer and developer of internal combustion engines.[br]Harry Ricardo was the eldest child and only son of Halsey Ricardo (architect) and Catherine Rendel (daughter of Alexander Rendel, senior partner in the firm of consulting civil engineers that later became Rendel, Palmer and Tritton). He was educated at Rugby School and at Cambridge. While still at school, he designed and made a steam engine to drive his bicycle, and by the time he went up to Cambridge in 1903 he was a skilled craftsman. At Cambridge, he made a motor cycle powered by a petrol engine of his own design, and with this he won a fuel-consumption competition by covering almost 40 miles (64 km) on a quart (1.14 1) of petrol. This brought him to the attention of Professor Bertram Hopkinson, who invited him to help with research on turbulence and pre-ignition in internal combustion engines. After leaving Cambridge in 1907, he joined his grandfather's firm and became head of the design department for mechanical equipment used in civil engineering. In 1916 he was asked to help with the problem of loading tanks on to railway trucks. He was then given the task of designing and organizing the manufacture of engines for tanks, and the success of this enterprise encouraged him to set up his own establishment at Shoreham, devoted to research on, and design and development of, internal combustion engines.Leading on from the work with Hopkinson were his discoveries on the suppression of detonation in spark-ignition engines. He noted that the current paraffinic fuels were more prone to detonation than the aromatics, which were being discarded as they did not comply with the existing specifications because of their high specific gravity. He introduced the concepts of "highest useful compression ratio" (HUCR) and "toluene number" for fuel samples burned in a special variable compression-ratio engine. The toluene number was the proportion of toluene in heptane that gave the same HUCR as the fuel sample. Later, toluene was superseded by iso-octane to give the now familiar octane rating. He went on to improve the combustion in side-valve engines by increasing turbulence, shortening the flame path and minimizing the clearance between piston and head by concentrating the combustion space over the valves. By these means, the compression ratio could be increased to that used by overhead-valve engines before detonation intervened. The very hot poppet valve restricted the advancement of all internal combustion engines, so he turned his attention to eliminating it by use of the single sleeve-valve, this being developed with support from the Air Ministry. By the end of the Second World War some 130,000 such aero-engines had been built by Bristol, Napier and Rolls-Royce before the piston aero-engine was superseded by the gas turbine of Whittle. He even contributed to the success of the latter by developing a fuel control system for it.Concurrent with this was work on the diesel engine. He designed and developed the engine that halved the fuel consumption of London buses. He invented and perfected the "Comet" series of combustion chambers for diesel engines, and the Company was consulted by the vast majority of international internal combustion engine manufacturers. He published and lectured widely and fully deserved his many honours; he was elected FRS in 1929, was President of the Institution of Mechanical Engineers in 1944–5 and was knighted in 1948. This shy and modest, though very determined man was highly regarded by all who came into contact with him. It was said that research into internal combustion engines, his family and boats constituted all that he would wish from life.[br]Principal Honours and DistinctionsKnighted 1948. FRS 1929. President, Institution of Mechanical Engineers 1944–5.Bibliography1968, Memo \& Machines. The Pattern of My Life, London: Constable.Further ReadingSir William Hawthorne, 1976, "Harry Ralph Ricardo", Biographical Memoirs of Fellows of the Royal Society 22.JBBiographical history of technology > Ricardo, Sir Harry Ralph
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14 Barber, John
[br]baptized 22 October 1734 Greasley, Nottinghamshire, Englandd. 6 November 1801 Attleborough, Nuneaton, England[br]English inventor of the gas turbine and jet propulsion.[br]He was the son of Francis Barber, coalmaster of Greasley, and Elizabeth Fletcher. In his will of 1765. his uncle, John Fletcher, left the bulk of his property, including collieries and Stainsby House, Horsley Woodhouse, Derbyshire, to John Barber. Another uncle, Robert, bequeathed him property in the next village, Smalley. It is clear that at this time John Barber was a man of considerable means. On a tablet erected by John in 1767, he acknowledges his debt to his uncle John in the words "in remembrance of the man who trained him up from a youth". At this time John Barber was living at Stainsby House and had already been granted his first patent, in 1766. The contents of this patent, which included a reversible water turbine, and his subsequent patents, suggest that he was very familiar with mining equipment, including the Newcomen engine. It comes as rather a surprise that c.1784 he became bankrupt and had to leave Stainsby House, evidently moving to Attleborough. In a strange twist, a descendent of Mr Sitwell, the new owner, bought the prototype Akroyd Stuart oil engine from the Doncaster Show in 1891.The second and fifth (final) patents, in 1773 and 1792, were concerned with smelting and the third, in 1776, featured a boiler-mounted impulse steam turbine. The fourth and most important patent, in 1791, describes and engine that could be applied to the "grinding of corn, flints, etc.", "rolling, slitting, forging or battering iron and other metals", "turning of mills for spinning", "turning up coals and other minerals from mines", and "stamping of ores, raising water". Further, and importantly, the directing of the fluid stream into smelting furnaces or at the stern of ships to propel them is mentioned. The engine described comprised two retorts for heating coal or oil to produce an inflammable gas, one to operate while the other was cleansed and recharged. The resultant gas, together with the right amount of air, passed to a beam-operated pump and a water-cooled combustion chamber, and then to a water-cooled nozzle to an impulse gas turbine, which drove the pumps and provided the output. A clear description of the thermodynamic sequence known as the Joule Cycle (Brayton in the USA) is thus given. Further, the method of gas production predates Murdoch's lighting of the Soho foundry by gas.It seems unlikely that John Barber was able to get his engine to work; indeed, it was well over a hundred years before a continuous combustion chamber was achieved. However, the details of the specification, for example the use of cooling water jackets and injection, suggest that considerable experimentation had taken place.To be active in the taking out of patents over a period of 26 years is remarkable; that the best came after bankruptcy is more so. There is nothing to suggest that the cost of his experiments was the cause of his financial troubles.[br]Further ReadingA.K.Bruce, 1944, "John Barber and the gas turbine", Engineer 29 December: 506–8; 8 March (1946):216, 217.C.Lyle Cummins, 1976, Internal Fire, Carnot Press.JB -
15 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 -
16 starter
стартер; устройство для запуска двигателей; пусковая камера, камера зажигания; ркт. запускающий ( член расчёта)iso-propyl nitrate turbine starter — газотурбинный стартер, работающий на изопропилнитр ате
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17 Baumann, Karl
SUBJECT AREA: Steam and internal combustion engines[br]b. 18 April 1884 Switzerlandd. 14 July 1971 Ilkley, Yorkshire[br]Swiss/British mechanical engineer, designer and developer of steam and gas turbine plant.[br]After leaving school in 1902, he went to the Ecole Polytechnique, Zurich, leaving in 1906 with an engineering diploma. He then spent a year with Professor A.Stodola, working on steam engines, turbines and internal combustion engines. He also conducted research in the strength of materials. After this, he spent two years as Research and Design Engineer at the Nuremberg works of Maschinenfabrik Augsburg-Nürnberg. He came to England in 1909 to join the British Westinghouse Co. Ltd in Manchester, and by 1912 was Chief Engineer of the Engine Department of that firm. The firm later became the Metropolitan-Vickers Electrical Co. Ltd (MV), and Baumann rose from Chief Mechanical Engineer through to, by 1929, Special Director and Member of the Executive Management Board; he remained a director until his retirement in 1949.For much of his career, Baumann was in the forefront of power station steam-cycle development, pioneering increased turbine entry pressures and temperatures, in 1916 introducing multi-stage regenerative feed-water heating and the Baumann turbine multi-exhaust. His 105 MW set for Battersea "A" station (1933) was for many years the largest single-axis unit in Europe. From 1938 on, he and his team were responsible for the first axial-flow aircraft propulsion gas turbines to fly in England, and jet engines in the 1990s owe much to the "Beryl" and "Sapphire" engines produced by MV. In particular, the design of the compressor for the Sapphire engine later became the basis for Rolls-Royce units, after an exchange of information between that company and Armstrong-Siddeley, who had previously taken over the aircraft engine work of MV.Further, the Beryl engine formed the basis of "Gatric", the first marine gas turbine propulsion engine.Baumann was elected to full membership for the Institution of Mechanical Engineers in 1929 and a year later was awarded the Thomas Hawksley Gold Medal by that body, followed by their James Clayton Prize in 1948: in the same year he became the thirty-fifth Thomas Hawksley lecturer. Many of his ideas and introductions have stood the test of time, being based on his deep and wide understanding of fundamentals.JB -
18 engine
n1) двигун, мотор2) комп. процесор◊engine off — вимкнутий [вимкнений] двигун
engine on — двигун, що працює
engine out — двигун, що відмовив
to blow down an engine — 1) виконувати холодний запуск двигуна; 2) продувати двигун (від залишків палива)
to close down an engine — зупиняти [вимикати] двигун
to cut off an engine — зупиняти [вимикати] двигун
to run an engine — запускати, заводити двигун
to shut down an engine — зупиняти [вимикати] двигун
to start an engine — запускати, заводити двигун
•- air-breathing engine - air-cooled engine - aircraft engine - air-feed jet engine - altitude engine - apogee engine - approach-correcting engine - arc-heating jet engine - arc jet engine - ascent engine - assisted takeoff engine - atmospheric jet engine - aviation engine - axial-flow gas turbine engine - bare engine - baseline engine - basic engine - bipropellant engine - bipropellant rocket engine - bismuth ion engine - boost engine - booster engine - boost rocket engine - bypass engine - center engine - cold-reaction engine - combustion engine - compound engine - critical engine - cryogenic rocket engine - dead engine - definitive engine - derated engine - descent engine - docking engine - double-flow engine - double-row radial engine - dual-flow turbojet engine - duct burning bypass engine - ducted-fan engine - electric arcjet engine - electron-bombardment engine - erosion engine - fan engine - fan-type engine - fluorine-hydrogen engine - free-turbine engine - fuel efficient engine - gas discharge ionizator electrostatic engine - gas turbine engine - gas turbine jet engine - high bypass ratio engine - high compression ratio engine - high-I engine - hybrid air-breathing engine - hybrid-propellant engine - hybrid rocket engine - idling engine - impact volume ionization ion engine - inboard engine - internal combustion engine - in-wing mounted engine - ionic engine - ion rocket jet engine - jet engine - laser air-jet engine - laser-driven rocket engine - laser-heated rocket engine - laser-propulsion rocket engine - launching rocket engine - left-hand engine - lift-fan engine - lift jet engine - light bulb engine - liquid air cycle engine - liquid-cooled engine - liquid-fuel rocket engine - liquid-propellant rocket engine - longer-lived engine - long-life engine - low bypass ratio engine - low-I engine - low-thrust rocket engine - LOX/HC engine - LOX/LH engine - maneuvering engine - mid-flight engine - model diesel engine - modular engine - monopropellant rocket engine - nacelle-mounted engine - oil engine - OMS engine - one-shaft engine - one-spool engine - on-wing mounted engine - outboard engine - photon engine - piston engine - plasma rocket engine - plasmajet rocket engine - podded engine - port-outer engine - port-side engine - potassium ion engine - powerful engine - precombustion chamber engine - propfan engine - propulsion engine - pulsating jet engine - pulsejet engine - pylon-mounted engine - quiet engine - radial engine - radiation-heated rocket engine - radio-frequency ion engine - ramjet engine - RCS engine - reaction engine - reciprocating engine - rectenna-powered ion engine - remanufactured engine - right-hand engine - rocket engine - rough engine - rubidium ion engine - self-aspirating engine - shaft-turbine engine - side engine - single-rotor engine - single-shaft gas turbine engine - single-shaft turbine engine - solar engine - solar photon rocket engine - solar-powered engine - solid-fuel rocket engine - solid-propellant rocket engine - spark-ignition engine - starboard engine - starting engine - subsonic engine - supersonic engine - surface ionization engine - sustainer rocket engine - thermal arc engine - thermal jet engine - three-flow turbojet engine - three-rotor turbofan engine - traveling wave plasma engine - triple-spool jet engine - tripropellant engine - turbine engine - turbofan engine - turbojet engine - turboprop engine - turboshaft engine - two-rotor engine - two-shaft turbine engine - two-spool engine - underwing engine - uprated engine - volume collision ionization engine - warmed-up engine - water-cooled engine - winding engine - wing engine -
19 engine
двигатель; моторduct burning bypass engine — двухконтурный турбореактивный двигатель с дожиганием топлива во втором контуре
2. продувать двигатель (напр. от остатков керосина)to blow down an engine — 1. выполнять холодный запуск двигателя
to close down an engine — останавливать [выключать] двигатель
to cut off an engine — останавливать [выключать] двигатель
to decelerate an engine — убирать обороты двигателя;
to shut down an engine — останавливать [выключать] двигатель
to unre- verse an engine — выводить двигатель из режима реверса;
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20 plant
1) завод; фабрика; предприятие2) установка; агрегат3) электрическая станция, электростанция, ЭС (см. тж
station)4) энергоблок5) цех; отделение; мастерская6) установка сейсмоприёмника в грунте || устанавливать сейсмоприёмник в грунт•-
absorption plant
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absorption refrigerating plant
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accumulator plant
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acetylene compressing plant
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acid recovery acid restoring plant
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acid recovery plant
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adsorption plant
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aerodrome accumulator plant
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agglomeration plant
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air separation plant
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air-cooled refrigerating plant
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aircraft development plant
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aircraft manufacturing plant
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aircraft overhaul plant
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aircraft plant
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aircraft washing plant
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air-storage gas turbine plant
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air-storage power plant
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alkylation plant
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A-plant
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arc-furnace plant
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arc-welding plant
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asphalt plant
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assembly plant
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atomic marine plant
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atomic power plant
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automatic flour handling plant
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auto-shredding plant
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auxiliary gas turbine power plant
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back-pressure heat generation plant
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bakery plant
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baling plant
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basic arc-furnace plant
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basic slag-grinding plant
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batching plant
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batch-weighing plant
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Bessemer plant
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biogas producing plant
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blackout plant
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blast-furnace plant
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blending plant
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bob-tail plant
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boiler plant
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bow-type plant
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box plant
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bread-making plant
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breaking plant
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brick-making plant
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brine refrigerating plant
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bulk plant
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butter-making plant
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by-product coke plant
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by-product recovery plant
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by-products plant
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can-making plant
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canning plant
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captive plant
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car assembly plant
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carbon dioxide refrigerating plant
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carbon plant
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car-repair plant
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casinghead gasoline plant
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casting plant
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CDQ plant
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cell plant
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centralized photovoltaic power plant
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central-mixing plant
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centrifugal refrigerating plant
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centrifuge isotope separation plant
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charge preparation plant
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cheese-making plant
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chemical desalting plant
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chemical separation plant
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circulation degassing plant
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clarification plant
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clay-drying plant
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closed-cycle cryogenic plant
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coal gasification-gas cleaning plant
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coal-cleaning plant
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coal-conveying plant
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coal-fired plant
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coal-injection plant
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coal-liquefaction plant
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coal-preparation plant
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coal-pulverizing plant
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coal-reduction plant
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coal-to-methanol plant
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coal-washing plant
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cogeneration plant
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coke dry-quenching plant
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coke-handling plant
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coke-pitch plant
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coke-quenching plant
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coking plant
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combination topping and cracking plant
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combined heat power plant
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combined photovoltaic-deolian electric plant
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combined-cycle plant
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combined-cycle steam plant
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combiner plant
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compressor plant
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concentration plant
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concrete product plant
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concrete-mixing plant
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concreting plant
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condensate liquid recovery plant
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condensate purification plant
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condensing plant
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confectionary producing plant
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confectionary plant
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constant-head plant
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contactor centrifuge acid treating plant
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continuous-casting plant
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conventional power plant
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converter plant
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cooling plant
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copper-smelting plant
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countercurrent ion exchange plant
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CR plant
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crushing plant
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cryogenic freezing plant
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cryogenic power generation plant
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crystal drawing plant
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cutting and shearing plant
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cycle-degassing plant
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cycling plant
-
deaerating plant
-
degreasing plant
-
dendro-thermal power plant
-
desalting plant
-
desinfection plant
-
detinning plant
-
dewatering plant
-
diesel engine power plant
-
direct-expansion refrigerating plant
-
disposal plant
-
distilling plant
-
district-heating plant
-
diversion plant
-
double-strand plant
-
drainage pumping plant
-
drop-hammer plant
-
dry-process plant
-
dual-purpose turbine plant
-
dust extraction plant
-
dust handling plant
-
earth-freezing plant
-
earth-moving plant
-
EBM plant
-
EBR plant
-
ECM plant
-
edible fat plant
-
EDR plant
-
effluent treatment plant
-
eight-strand plant
-
ejector refrigerating plant
-
electric pig-iron plant
-
electric power plant
-
electrical propulsion plant
-
electricity distribution plant
-
electrochemical machining plant
-
electrodialysis plant
-
electrodialysis reversal plant
-
electrolytic tinning plant
-
electron-beam-melting plant
-
electron-beam-refining plant
-
electrostatic precipitation desalting plant
-
engineering plant
-
evaporation plant
-
extraction plant
-
extra-terrestrial power plant
-
fabric-dipping plant
-
feed milling
-
fermentation plant
-
filter plant
-
finishing plant
-
fish processing plant
-
fission power plant
-
fixed plant
-
fixed-head power plant
-
flexible manufacturing plant
-
flexing generating plant
-
floating nuclear power plant
-
floating pile-driving plant
-
floating power plant
-
flotation plant
-
flour milling plant
-
folding carton plant
-
food concentrate plant
-
force ventilation plant
-
formcoke plant
-
fossil-fuel plant
-
fractional horsepower refrigerating plant
-
fractional ton refrigerating plant
-
fragmentation plant
-
freezing plant
-
fruit-and-vegetable processing plant
-
fuel-pulverizing plant
-
full-fashioned sweater plant
-
full-scale plant
-
fume-cleaning plant
-
fume-extraction plant
-
furniture plant
-
fusion power plant
-
galvanizing plant
-
gas absorption plant
-
gas fire extinguishing plant
-
gas fractionation plant
-
gas liquids plant
-
gas plant
-
gas turbine power plant
-
gas turbine plant
-
gas-and-oil-buming power plant
-
gas-carburizing plant
-
gas-cleaning plant
-
gas-compressor plant
-
gaseous-diffusion plant
-
gas-fired plant
-
gas-generator plant
-
gasification-based combined cycle plant
-
gasifier-combined cycle plant
-
gasoline plant
-
gas-producer plant
-
gas-treating plant
-
gas-washing plant
-
generating plant
-
geothermal power plant
-
glass-manufacturing plant
-
glass-recycling plant
-
grading plant
-
graphite plant
-
graphite recovery plant
-
grease plant
-
hardening plant
-
H-cycle plant
-
heat power plant
-
heat pump plant
-
heat raising plant
-
heat-electric generating plant
-
heating and power plant
-
heating network plant
-
heating plant
-
heating-water converter plant
-
heavy-water plant
-
high-capacity refrigerating plant
-
high-head power plant
-
H-iron plant
-
hot dip filming plant
-
hot water peaking boiler plant
-
hybrid wind-photovoltaic plant
-
hydroelectric power plant
-
hydroelectric plant
-
hydroelectric pumped storage power plant
-
hydro-photovoltaic plant
-
ice plant
-
incinerator plant
-
indicator plant
-
industrial power plant
-
industrial steam plant
-
industrial waste treatment plant
-
industrial-scale plant
-
in-house printing plant
-
intake plant
-
integral coal gasification combined cycle plant
-
integrated steel plant
-
interlocking plant
-
intermediate solar plant
-
internal combustion power plant
-
ion-exchange plant
-
ion-exchange softening plant
-
iron powder plant
-
iron-ore pelletizing plant
-
isolated generating plant
-
isotope separation plant
-
jobbing plant
-
Kaldo-steelmaking plant
-
Kaldo plant
-
killing plant
-
laboratory-scale plant
-
ladle degassing plant
-
ladle-spraying plant
-
LD plant
-
LDAC oxygen-steelmaking plant
-
light plant
-
liquefied natural gas plant
-
liquefied petroleum gas plant
-
liquid freezing plant
-
liquor plant
-
loading plant
-
local plant
-
locomobile power plant
-
locomotive repair plant
-
loop plant
-
low-capacity refrigerating plant
-
low-head power plant
-
lube plant
-
machine tool plant
-
magnetohydrodynamic power plant
-
main propulsion machinery plant
-
marine reactor plant
-
marine refrigerating plant
-
meat packing plant
-
meat producing plant
-
mechanical air-conditioning plant
-
mechanical drive gas turbine plant
-
mechanical refrigerating plant
-
medium-head power plant
-
merchant-coke plant
-
metals-recovery plant
-
MHD power plant
-
midget power plant
-
milk plant
-
milling plant
-
mine-mouth power plant
-
mixed pumped-storage plant
-
mixing plant
-
mobile power plant
-
mold degassing plant
-
mold hydraulic cleaning plant
-
mortar-mixing plant
-
muck-shifting plant
-
mud-mixing plant
-
multiple-unit power plant
-
multipurpose sea-water desalination plant
-
multistrand plant
-
multiunit power plant
-
naphtha-treating plant
-
natural gasoline plant
-
natural gas-sweetening plant
-
noncondensing power plant
-
nonintegrated steel plant
-
nonterrestrial power plant
-
nuclear cogeneration plant
-
nuclear gas turbine plant
-
nuclear heating plant
-
nuclear power plant
-
nuclear steam power plant
-
oil shale retorting plant
-
oil-and-gas gathering plant
-
oil-burning power plant
-
oil-desulfurization plant
-
oil-extraction plant
-
oil-fired plant
-
oil-reclamation plant
-
oil-treating plant
-
on-line gas plant
-
open-coil annealing plant
-
open-cycle gas turbine plant
-
open-hearth plant
-
orbital power plant
-
orbital solar power plant
-
ore-bedding plant
-
ore-blending plant
-
ore-breaker plant
-
ore-conditioning plant
-
ore-dressing plant
-
ore-roasting plant
-
ore-washing plant
-
outdoor-type power plant
-
oxidizing plant
-
oxygen-converter plant
-
ozone plant
-
packaged power plant
-
packaged refrigerating plant
-
packing plant
-
paint varnish and lacquer plant
-
pallet conveyor mold-type plant
-
paperboard plant
-
peaking power plant
-
peaking boiler plant
-
peak-shaving liquefied natural gas plant
-
pellet plant
-
petroleum chemical plant
-
photovoltaic power plant
-
physical plant
-
pickling plant
-
pig-casting plant
-
pilot plant
-
plating plant
-
plywood manufacturing plant
-
polymerization plant
-
pontoon pile-driving plant
-
power plant
-
preserving plant
-
printing plant
-
process gas turbine plant
-
processing plant
-
Prolerizing plant
-
propulsion plant
-
public utility power plant
-
public-service power plant
-
pulverized-coal-fired plant
-
pulverizing plant
-
pump plant
-
pumped-storage plant
-
pumping plant
-
pumping-generating plant
-
quick-freezing plant
-
radiant freeze-drying plant
-
ready-mix plant
-
recovery plant
-
reforming plant
-
refrigerating plant
-
refuse-fired plant
-
regasifying plant
-
regenerative gas turbine plant
-
relift pumping plant
-
rendering plant
-
retreading plant
-
reverse osmosis plant
-
rolling plant
-
route interlocking plant
-
run-of-river plant
-
sack filling plant
-
salt plant
-
sand-preparing plant
-
satellite printing plant
-
scrap-shredding plant
-
screening plant
-
sea-water desalting plant
-
sedimentation plant
-
self-contained rail welding plant
-
self-contained refrigerating plant
-
self-sufficient plant
-
semiclosed-cycle gas turbine plant
-
semiunderground plant
-
separating plant
-
sewage disposal plant
-
simple-cycle gas turbine plant
-
simulated power plant
-
single-pool power plant
-
single-strand plant
-
single-unit plant
-
sinking plant
-
sintering plant
-
sizing plant
-
skimming plant
-
slab-producting plant
-
slag-expanding plant
-
slag-screening plant
-
slaughtering and meat processing plant
-
slaughtering plant
-
sludge filtration plant
-
small-size refrigerating plant
-
smoke extractor plant
-
soap plant
-
solar ice plant
-
solar plant
-
solar power plant
-
solar tower plant
-
solvent-extraction plant
-
split-shaft gas turbine plant
-
sputtering plant
-
stabilization plant
-
stand-alone solar power plant
-
standby plant
-
stationary gas turbine plant
-
stationary refrigerating plant
-
steam condensing plant
-
steam plant
-
steam power plant
-
steam-electric-turbine plant
-
steaming plant
-
steel continuous casting plant
-
steel plant
-
storage plant
-
stream degassing plant
-
stripping plant
-
sugar refining plant
-
sulfur recovery plant
-
sunken-type plant
-
superposed plant
-
supplementary fired combined cycle plant
-
supplementary heating plant
-
sweater knitting plant
-
tap-degassing plant
-
tar-boiling plant
-
tea plant
-
television plant
-
tertiary plant
-
thermal power plant
-
thermal plant
-
thermodynamic solar power plant
-
thermoelectric refrigerating plant
-
tidal power plant
-
tiger topping plant
-
tinning plant
-
tin-refining plant
-
tin-smelting plant
-
tonnage oxygen plant
-
top-blown oxygen vessel plant
-
topping plant
-
tower-type plant
-
train washing plant
-
transformer plant
-
trash-fired power plant
-
traveling pneumatic grain-discharging plant
-
treatment plant
-
tritium removal plant
-
turbine plant
-
turbo-refrigerating plant
-
two-axes focusing solar plant
-
two-shaft plant
-
ultrafiltration concentration plant
-
undercar power plant
-
underground nuclear power plant
-
underwater nuclear power plant
-
unit refrigerating plant
-
uranium enrichment plant
-
vacuum casting plant
-
vacuum degassing plant
-
vacuum dezincing plant
-
vacuum gas turbine plant
-
vacuum metallothermic plant
-
vacuum molding plant
-
vacuum-decarburization plant
-
variable-head power plant
-
variable-load power plant
-
vertical plant
-
vulcanizing plant
-
washing plant
-
waste disposal plant
-
waste-to-energy cogeneration plant
-
waste-to-energy plant
-
water demineralization plant
-
water softening plant
-
water treatment plant
-
water-cooling plant
-
waterpower plant
-
wave energy plant
-
wax plant
-
wet-process plant
-
wind-mill electric generating plant
-
wire-drawing plant
-
year-round air-conditioning plant
-
zero-discharge plant
-
zinc ore roasting plant
-
zinc-smelting plant
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См. также в других словарях:
Internal combustion engine — The internal combustion engine is an engine in which the combustion of a fuel (normally a fossil fuel) occurs with an oxidizer (usually air) in a combustion chamber. In an internal combustion engine, the expansion of the high temperature and high … Wikipedia
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internal combustion engine — noun a) A piston or a rotary heat engine directly powered by the products of intermittent combustion of a fuel. b) A heat engine in which intermittent or the continuous burning of a fuel takes place inside a combustion chamber; the … Wiktionary
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Combustion chamber — A combustion chamber is the part of an engine in which fuel is burned. Contents 1 Internal combustion engine 1.1 Petrol or gasoline engine 1.2 Diesel engine 1.3 Gas … Wikipedia
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Combustion — This article is about the process of burning. For combustion without external ignition, see spontaneous combustion. For the engine used in mobile propulsion, see internal combustion engine. For the visible part of a fire, see flame. Burning… … Wikipedia
combustion chamber — noun : a chamber within which combustion occurs: as a. : the space in some boiler furnaces where the gases from the fire become more thoroughly mixed with air and burned b. : the clearance space in the cylinder of an internal combustion engine… … Useful english dictionary