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61 двигатель
муж. engine, motor;
mover, motive power/force перен. поджиг ракетного двигателя ≈ burn реакт. небольшой стационарный двигатель ≈ тех. donkey-engine реактивный двигатель ≈ jet, jet engine вспомогательный двигатель ≈ pilot engine газовый двигатель ≈ gas-engine авиационный двигатель ≈ aeroengine, air-engine, aviation engine двигатель внутреннего сгорания ≈ combustion engine, internal-combustion engine тепловой двигатель ≈ heat-engine турбореактивный двигатель ≈ turbo-jet engine, jet turbine engine двигатель Дизеля ≈ DieselБольшой англо-русский и русско-английский словарь > двигатель
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62 internal combustion
(a means of producing power eg in the engine of a motor car by the burning of a fuel gas (eg petrol vapour) inside the cylinder(s) of the engine.) forbrænding* * *(a means of producing power eg in the engine of a motor car by the burning of a fuel gas (eg petrol vapour) inside the cylinder(s) of the engine.) forbrænding -
63 pump
2) насос; помпа; накачивание; нагнетание; выкачивание; откачивание (процесс действия насоса); II качать насосом; нагнетать; работать насосом; закачивать (воздух и пр.); накачивать (шины и пр.); откачивать; выкачивать; опорожнять- pump adjustment screw - pump-and-accumulator station - pump and injector unit filter - pump and injector unit follower - pump and injector unit nut - pump and injector unit plunger - pump basket - pump beam - pump blade - pump block - pump body - pump bonnet - pump bowl - pump box - pump braking - pump bucket - pump capacity per revolution - pump cavitation - pump cell - pumping circuit - pump circulation - pump control console - pump cradle- pump cup- pump current - pumping current - pump diameter - pump discharge - pump discharge pressure - pump discharge valve - pump disk - pump displacement - pump distribution gear unit - pump-down - pump-down time - pump duty - pump element - pump end thrust - pump-fed rocket - pump filter - pump flow - pump outputflow - pump for gas transporting - pump for injection of mortar - pump frequency - pumping frequency - pump fuel feed - pump governor - pump gun - pump-handle - pump head - pump house - pump housing - pump injection - pump-injector - pump inlet - pump inlet capability - pump inlet pressure - pump installation - pump intake - pump intake pressure - pump jet propeller - pump jet propulsion system - pump-jet propulsion unit - pump jig - pump kettle - pump leak - pump lift - pump line - pump liner - pump-lubricated - pump lubrication - pump main - pump manifold - pump mechanized - pump mode - pump motor - pump-motor - pump-motor unit - pump noise - pump off - pump open sliding side door - pump out - pump output - pump output flow - pump over - pump performance - pump pipelining - pump piping - pump plunger - pump power end - pump pressure - pump price - pump priming - pump priming characteristic - pump pulsation damper - pump ram - pump rate - pump rating - pump recirculation system - pump riser - pump rod - pump rod joint - pump room - pump runner - pump screen - pump seat - pump seating - pump shaft - pump shell - pump slippage - pump specifications - pump speed - pump speed indicator - pump spindle - pump-starving filter condition - pump station - pump stock reserve - pump strainer - pump stripping - pump stroke counter - pump stroke rate - pump suction - pump suction head - pump suction line - pump suction tube - pump suction-valve cage - pump-system water cooling - pump thrust - pump thrust plate - pump traveling valve cage - pump turbine - pump-type circulation lubrication - pump unit - pump unloading - pump unloading hydraulic circuit - pump up - pump vacuum rating - pump volume - pump volume indicator - pump warm-up line - pump water feed - pumped water feed - pump wheel - pump with external bearing - pump with internal bearing - pump with overhung impeller - pump withdrawal - pump working barrel valve seat - pump works - adsorption pump - adsorption vacuum pump - aeration jet pump- air pump- air-driven pump - air-operated pump - air-operated grouting pump- air pump- ammonia pump - annular casing pump - armored pump - aspirator pump - aspiring pump - axial flow pump - axial flow turbine pump - axially split pump - axial piston pump - axial-piston distribution pump - axial piston pump of the rotary cylinder-type - axial suction pump - backing vacuum pump - barrel insert pump - beam pump - blower pump - boom concrete pump - bore-hole pump - brine-circulating pump - canned pump - canned motor pump - cargo pump - cementing piston pump - centrifugal pump with shrouded impeller - circular casing pump - chain pump - combined vacuum pump - Common-Rail high-pressure pump - condensation pump - condensation return pump - constant discharge pump - constant volume pump - continuous-pressure pump - controlled capacity plunger pump - controlled-volume pump - coolant pump - cooled pump - cooling-water pump - corrosion-resistant water pump - cutter lubricant pump - deep-well pump - differential pump - discharge pump - disintegrating pump - dispensing pump - displacement pump - distributor fuel injection pump - donkey pump - dosing pump - double-acting pump - double-diaphragm pump - double-displacement pump - double-entry pump - double-plunger pump - double-suction pump - double-volute pump - Downton pump - drainline pump - dredge pump - dredging pump - drowned pump - ejector jet pump - electrically driven pump - electrical centrifugal pump - electromagnetic pump - electropneumatic tyre pump - electrosubmersible pump - elevator pump - emergency pump - end suction pump - entrapment pump - epitrochoidal pump - excavating pump - external gear pump - extraction pump - fixed pump - fixed-delivery pump - fixed displacement pump - fixed volume pump - flexible tube pump - flexible tubes for grease pump - flow-type pump - flow-type fuel pump - fluid pump - fluid-packed pump - flywheel pump - force pump - fractionating diffusion pump - fuel booster pump- gas pump- gas jet pump - gear-driven pump - gear-type pump - gear wheel pump - hand desoldering pump with antistatic teflon tip - hand-operated grouting pump - hand-priming pump - hand suction pump for battery liquid - hand vacuum-pressure pump for checking vacuum advance in conjunction and timing light - turbo wastengate control valve and etc. - heat pump - heated pump - helical rotor pump - high duty pump - high-flow pump - high-lift pump - high-low pressure pump - high-pressure pump - high-pressure fuel pump - high-vacuum pump - hot-oil pump - house service pump - impeller pump - in-line pump - in-line fuel injection pump - internal gear pump - internal spur gear pump - irrigating pump - jacketed pump- jet pump- jet vacuum pump - jury pump - kinetic pump - liquid jet pump - liquid-packed ring pump - liquid ring vacuum pump - liquid-sealed vacuum pump - lobular pump - low-lift pump - lubrication pump - main pump - make-up pump - manual pump - manual pump for injector testing - marine pump - mechanical pump - membrane pump - mine pump - monocylindrical fuel injection pump - motor pump - mud pump - multicellular pump - multicylinder pump - multicylinder fuel injection pump - multijet vacuum pump - multiple-piston pump - multiplunger pump - multiscrew pump- oil pump- oil-line pump - oil-refinery pump - oil scavenge pump - oil-sealed vacuum pump - oil suction pump - oil supply pump - oil-vapor vacuum pump - oscillating displacement pump - papermill pump - peripheral pump - peristaltic pump - port the pump - portable pump - positive-displacement pump - positive-displacement fuel pump - power-steering pump - power take-off mounted pump - precharge pump - press pump - pressure test pump - pressurizing pump - prime a pump - PTO-mounted pump - pulse-free pump - pusher pump - radial flow turbine pump - radial piston pump - radially split pump - rapid approach pump - rayon pump - reactor coolant pump - reciprocating pump - reciprocating fuel injection pump - reciprocating vacuum pump - recirculating pump - reciprocation pump - refrigerant pump - regulator pump - reversible pump - reversing pump - roller-cell pump - roller vane pump - roots vacuum pump - rotary pump - rotary air pump - rotary-displacement pump - rotary fuel injection pump - rotary gear pump - rotary lobe pump - rotary piston lobe-type pump - rotary plunger pump - rotary vane-type pump - rotodynamic pump - roughing-down pump - roughing vacuum pump - rough vacuum pump - sand pump - scavenge pump - scavenging pump - scoop pump - screw pump - scrum pump - self-bleeding pump - self-priming pump - self-purifying diffusion pump - semirotary pump - servo pump - service pump - sewage pump - sewage water pump - shallow well pump - side channel pump - side suction pump - simplex pump - single-acting pump - single-acting hand pump - single-acting piston pump - single-cylinder pump - single-stage pump - sinking pump - sliding vane pump - sliding vane rotary pump - slime pump - sludge pump - sluice pump - slush pump - small capacity pump - sorption pump - sorption vacuum pump - spur gear pump - sputter ion pump - stage chamber pump - stand-by pump - start a pump - stationary pump - stationary concrete pump - steam pump - steering pump - stripping pump - sublimation pump - sublimation vacuum pump - submerged pump - submersible pump - subsurface pump - sucking pump - suction pump - suds pump - supercharging pump - supply pump - surge pump - swash-plate pump - swash-plate operated pump - tank pump - tar-and-residuum pump - test pump - thermal pump - three-cylinder pump - three-screw pump - tire pump - truck-mounted concrete pump - torque flow pump - transfer pump - trim pump - triplex pump - triplex plunger pump - trochoid pump - turbine pump - turbine-driven pump - turn on a pump - tyre pump - twin pump - two-cylinder pump - two-screw pump - two-stage pump - two-volume pump - unbalanced pump - unit construction pump - V-type pump - V-type piston pump - vacuum pump - valveless pump - vane pump - vane-type pump - vapor jet pump - variable capacity pump - variable-delivery pump - variable displacement pump - variable speed pump - variable volume pump - vee fuel injection pump - volute pump - water pump - water-jet pump - well pump - wet-air pump - wet motor pump - wet-pit pump - wide-spray fire pump - windmill pump - windshield washer pump - wing pump - work a pump -
64 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 -
65 steam
[sti:m] 1. noun1) (a gas or vapour that rises from hot or boiling water or other liquid: Steam rose from the plate of soup / the wet earth in the hot sun; a cloud of steam; ( also adjective) A sauna is a type of steam bath.) damp; damp-; em; em-2) (power or energy obtained from this: The machinery is driven by steam; Diesel fuel has replaced steam on the railways; ( also adjective) steam power, steam engines.) damp; damp-2. verb1) (to give out steam: A kettle was steaming on the stove.) dampe2) ((of a ship, train etc) to move by means of steam: The ship steamed across the bay.) dampe3) (to cook by steam: The pudding should be steamed for four hours.) dampe•- steam-- steamer
- steamy
- steamboat
- steamship
- steam engine
- steam roller
- full steam ahead
- get steamed up
- get up steam
- let off steam
- run out of steam
- steam up
- under one's own steam* * *[sti:m] 1. noun1) (a gas or vapour that rises from hot or boiling water or other liquid: Steam rose from the plate of soup / the wet earth in the hot sun; a cloud of steam; ( also adjective) A sauna is a type of steam bath.) damp; damp-; em; em-2) (power or energy obtained from this: The machinery is driven by steam; Diesel fuel has replaced steam on the railways; ( also adjective) steam power, steam engines.) damp; damp-2. verb1) (to give out steam: A kettle was steaming on the stove.) dampe2) ((of a ship, train etc) to move by means of steam: The ship steamed across the bay.) dampe3) (to cook by steam: The pudding should be steamed for four hours.) dampe•- steam-- steamer
- steamy
- steamboat
- steamship
- steam engine
- steam roller
- full steam ahead
- get steamed up
- get up steam
- let off steam
- run out of steam
- steam up
- under one's own steam -
66 steam
1) пар
2) варить на пару
3) запаривать
4) напаривать
5) напарить
6) паровыпускный
7) парогенерурющий
8) паропромывочный
9) пароструйный
10) пропаривать
11) стерилизацинный
12) струйковый
13) паровой
14) двигаться при помощи пара
15) конденсационный
– at full steam
– bleed steam
– exhaust steam
– generate steam
– heating steam
– live steam
– open steam
– power-generating steam
– process steam
– produce steam
– raise steam
– release steam
– standard steam
– steam accumulator
– steam and gas
– steam attemperator
– steam bath
– steam belt
– steam blancher
– steam blanching
– steam blanket
– steam boiler
– steam boiling
– steam box
– steam bronze
– steam calender
– steam calorimeter
– steam car
– steam catapult
– steam chamber
– steam cleaning
– steam condensation
– steam condition
– steam contamination
– steam corrosion
– steam cushion
– steam demand
– steam deodorization
– steam distillation
– steam dome
– steam drier
– steam drive
– steam drum
– steam drur
– steam engine
– steam fat rendering
– steam flashing
– steam generating
– steam generator
– steam hammer
– steam heated
– steam heating
– steam hydrogen
– steam injection
– steam jet booster
– steam jet injector
– steam line
– steam locomotive
– steam main
– steam pipe
– steam pocket
– steam port
– steam pressure
– steam printing
– steam pump
– steam quality
– steam rate
– steam regulator
– steam roller
– steam separator
– steam shearing-off
– steam shovel
– steam space
– steam sterilizer
– steam superheat
– steam the flux
– steam thermol
– steam throttling
– steam tightness
– steam traction
– steam trap
– steam tug
– steam turbine
– steam vulcanization
– steam vulcanizer
– steam washer
– steam washing
– superheated steam
– vulcanization in steam
– vulcanize in steam
– waste steam
– wet steam
back-pressure steam engine — паровая машина с противодавлением
conventional steam superheater — <engin.> пароперегреватель огневой
gas and steam turbine installation — <engin.> установка турбинная газо-паровая
main steam gate — <phys.> задвижка паровая главная
steam cylinder oil — <energ.> вапор
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67 panel
панель; распределительная доска [щит]; приборная доска; консоль ( крыла) ; клин ( полотнища парашютного купола) ; сигнальное полотнище; комиссия, рабочая группаa.c. power panel — щиток управления электросистемой переменного тока
d.c. power panel — щиток управления электросистемой постоянного тока
emergency flotation gear panel — верт. панель аварийных средств обеспечения плавучести
essential services circuit breaker panel — эл. щиток автоматов защиты важнейших потребителей
first officer's instrument panel — приборная доска [панель] второго лётчика [пилота]
hat section stiffened panel — панель, подкрепленная корытообразным профилем
navigation function selector panel — щиток переключения видов [режимов] работы навигационных средств
navigation mode selector panel — щиток переключения видов [режимов] работы навигационных средств
rack cartridge ground test panel — щиток наземной проверки пиропатронов. подвески
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68 fuel
1) топливо, горючее || заправлять(ся) топливом, заправлять(ся) горючим•-
acid sludge fuel
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additional fuel
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aircraft engine fuel grade 100
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aircraft fuel grade 100
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alcohol fuel
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alternate fuel
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annihilation fuel
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antiknock fuel
-
aromatic fuel
-
ash-bearing fuel
-
ash-free fuel
-
ash-rich fuel
-
atomic fuel
-
atomized fuel
-
automotive fuel
-
aviation blending fuel
-
aviation fuel
-
aviation mixed fuel
-
backup fuel
-
binary fuel
-
biomass-based fuel
-
black oil fuel
-
blended fuel
-
blending fuel
-
borderline fuels
-
bunker fuel
-
by-product fuel
-
ceramic nuclear fuel
-
clean-burning fuel
-
climb fuel
-
coal-derived liquid fuel
-
coal-in-oil fuel
-
coal-water fuel
-
cold-starting fuel
-
colloidal fuel
-
commercial grade fuel
-
composite fuel
-
concentrated nuclear fuel
-
cupola fuel
-
degraded fuel
-
denatured fuel
-
diesel fuel
-
dispersion fuel
-
domestic fuel
-
doped fuel
-
dribbling diesel fuel
-
dusty fuel
-
emulsified fuel
-
engine fuel
-
enriched fuel
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ethanol fuel
-
ethylized fuel
-
finished fuel
-
fissionable fuel
-
fission fuel
-
fossil fuel
-
fresh fuel
-
fusionable fuel
-
fusion fuel
-
gas fuel
-
generative fuel
-
heavy oil fuel
-
high-antiknock fuel
-
high-flash fuel
-
high-grade fuel
-
high-moisture fuel
-
high-speed diesel fuel
-
high-sulfur fuel
-
high-volatile fuel
-
household fuel
-
hydrocarbon fuel
-
hydrogen fuel
-
hydrogen-based gaseous fuel
-
intentionally dumped fuel
-
irradiated fuel
-
jet aircraft fuel
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jet fuel
-
knock-free fuel
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lead-free fuel
-
light diesel fuel
-
light-volatile fuel
-
liquid fuel
-
liquid gas fuel
-
liquid hydrocarbon fuel
-
liquid transportation fuel
-
lower enrichment nuclear fuel
-
low-grade fuel
-
low-sulfur fuel
-
low-volatile fuel
-
mixed oxide fuel
-
motor fuel
-
motor volatile fuel
-
nitrogen-containing fuel
-
nonfroth fuel
-
nonhydrocarbon motor fuel
-
nonleaded fuel
-
nuclear fuel
-
oil fuel
-
oxygen-oil rocket fuel
-
patch fuel
-
petroleum fuel
-
pollution-free fuel
-
poor diesel fuel
-
poor ignition quality fuel
-
porous fuel
-
powdered fuel
-
power booster fuel
-
power fuel
-
power-plant fuel
-
premium fuel
-
premium motor fuel
-
premium-priced fuel
-
pressed fuel
-
pressure fuel
-
primary nuclear fuel
-
process fuel
-
pulverized fuel
-
pumpable fuel
-
radioactive fuel
-
railroad fuel
-
recycle nuclear fuel
-
reduced-enrichment fuel
-
reference fuel
-
replacement fuel
-
rocket fuel
-
safety fuel
-
shellspark fuel
-
slurry fuel
-
smokeless fuel
-
solid fuel
-
spent fuel
-
sphere-pac fuel
-
standard fuel
-
starting fuel
-
stove fuel
-
sulfur-bearing fuel
-
superoctane number fuel
-
superoctane fuel
-
synthetic liquid fuel
-
temporary fuel
-
transport fuel
-
turbine fuel
-
two-stroke fuel
-
unleaded fuel
-
unsafe fuel
-
uranium carbide fuel
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vehicle fuel
-
waste fuels
-
wide-cut fuel -
69 steam
sti:m
1. noun1) (a gas or vapour that rises from hot or boiling water or other liquid: Steam rose from the plate of soup / the wet earth in the hot sun; a cloud of steam; (also adjective) A sauna is a type of steam bath.)2) (power or energy obtained from this: The machinery is driven by steam; Diesel fuel has replaced steam on the railways; (also adjective) steam power, steam engines.)
2. verb1) (to give out steam: A kettle was steaming on the stove.)2) ((of a ship, train etc) to move by means of steam: The ship steamed across the bay.)3) (to cook by steam: The pudding should be steamed for four hours.)•- steam-- steamer
- steamy
- steamboat
- steamship
- steam engine
- steam roller
- full steam ahead
- get steamed up
- get up steam
- let off steam
- run out of steam
- steam up
- under one's own steam
steam1 n vaporsteam2 vb1. echar vapor / humear2. cocinar al vaportr[stiːm]1 (gen) vapor nombre masculino1 SMALLCOOKERY/SMALL (vegetables) cocer al vapor1 (boat) echar vapor; (soup, drink, etc) humear\SMALLIDIOMATIC EXPRESSION/SMALLfull steam ahead! ¡avante toda!, ¡a todo vapor!to get steamed up indignarse ( about, por)to do something under one's own steam hacer algo por sus propios mediosto get up steam (person) acelerarse 2 (project etc) coger impulso 3 (engine etc) dar presión, cobrar velocidadto go full steam ahead ir viento en popato let off steam desfogarse, desahogarseto run out of steam quedar agotado,-a, quemarseto steam a letter open abrir una carta con vaporsteam bath baño de vaporsteam engine (locomotive) locomotora de vapor, máquina de vapor 2 (engine) motor nombre masculino de vaporsteam iron plancha de vaporsteam ['sti:m] vi: echar vaporto steam away: moverse echando vaporsteam vt1) : cocer al vapor (en cocina)2)to steam open : abrir con vaporsteam n1) : vapor m2)to let off steam : desahogarseadj.• de vapor adj.n.• vaho s.m.• vapor s.m.v.• avahar v.• cocer al vapor v.• echar vapor v.• empañar v.• funcionar a vapor v.• humear v.stiːm
I
mass noun vapor mto get up steam — ( lit) \<\<engine/driver\>\> dar* presión
to let off steam — desahogarse*, dar* rienda suelta a su (or mi etc) indignación (or energía etc)
to run out of steam — \<\<person/project\>\> perder* ímpetu
under one's own steam — por sus (or mis etc) propios medios; (before n)
steam iron — plancha f de vapor
II
1.
a) ( Culin) \<\<vegetables/rice\>\> cocinar or cocer* al vapor; \<\<pudding\>\> cocinar or cocer* al baño (de) Maríab)to steam a letter open — abrir* una carta con vapor
2.
vi1) ( give off steam) echar vapor; \<\<hot food\>\> humear2) (+ adv compl)•Phrasal Verbs:- steam up[stiːm]1.N vapor mto get up or pick up steam — dar presión
full steam ahead! — (Naut) ¡a todo vapor!
- go full steam ahead with sth- let off steam- run out of steam2. VT1) (Culin) cocer al vapor2)3. VI1) (=give off steam) echar vapor2) (=move)we were steaming at 12 knots — íbamos a 12 nudos, navegábamos a 12 nudos
to steam ahead — (lit) avanzar; (fig) adelantarse mucho
4.CPDsteam bath N — baño m de vapor
steam engine N — máquina f de vapor
steam hammer N — martillo m pilón
steam heat N — calor m por vapor
steam iron N — plancha f de vapor
steam organ N — órgano m de vapor
steam room N — sauna f finlandesa, sala f de vapor
steam shovel N — (US) pala f mecánica de vapor, excavadora f
steam train N — tren m de vapor
steam turbine N — turbina f de vapor
- steam up* * *[stiːm]
I
mass noun vapor mto get up steam — ( lit) \<\<engine/driver\>\> dar* presión
to let off steam — desahogarse*, dar* rienda suelta a su (or mi etc) indignación (or energía etc)
to run out of steam — \<\<person/project\>\> perder* ímpetu
under one's own steam — por sus (or mis etc) propios medios; (before n)
steam iron — plancha f de vapor
II
1.
a) ( Culin) \<\<vegetables/rice\>\> cocinar or cocer* al vapor; \<\<pudding\>\> cocinar or cocer* al baño (de) Maríab)to steam a letter open — abrir* una carta con vapor
2.
vi1) ( give off steam) echar vapor; \<\<hot food\>\> humear2) (+ adv compl)•Phrasal Verbs:- steam up -
70 Stephenson, George
[br]b. 9 June 1781 Wylam, Northumberland, Englandd. 12 August 1848 Tapton House, Chesterfield, England[br]English engineer, "the father of railways".[br]George Stephenson was the son of the fireman of the pumping engine at Wylam colliery, and horses drew wagons of coal along the wooden rails of the Wylam wagonway past the house in which he was born and spent his earliest childhood. While still a child he worked as a cowherd, but soon moved to working at coal pits. At 17 years of age he showed sufficient mechanical talent to be placed in charge of a new pumping engine, and had already achieved a job more responsible than that of his father. Despite his position he was still illiterate, although he subsequently learned to read and write. He was largely self-educated.In 1801 he was appointed Brakesman of the winding engine at Black Callerton pit, with responsibility for lowering the miners safely to their work. Then, about two years later, he became Brakesman of a new winding engine erected by Robert Hawthorn at Willington Quay on the Tyne. Returning collier brigs discharged ballast into wagons and the engine drew the wagons up an inclined plane to the top of "Ballast Hill" for their contents to be tipped; this was one of the earliest applications of steam power to transport, other than experimentally.In 1804 Stephenson moved to West Moor pit, Killingworth, again as Brakesman. In 1811 he demonstrated his mechanical skill by successfully modifying a new and unsatisfactory atmospheric engine, a task that had defeated the efforts of others, to enable it to pump a drowned pit clear of water. The following year he was appointed Enginewright at Killingworth, in charge of the machinery in all the collieries of the "Grand Allies", the prominent coal-owning families of Wortley, Liddell and Bowes, with authorization also to work for others. He built many stationary engines and he closely examined locomotives of John Blenkinsop's type on the Kenton \& Coxlodge wagonway, as well as those of William Hedley at Wylam.It was in 1813 that Sir Thomas Liddell requested George Stephenson to build a steam locomotive for the Killingworth wagonway: Blucher made its first trial run on 25 July 1814 and was based on Blenkinsop's locomotives, although it lacked their rack-and-pinion drive. George Stephenson is credited with building the first locomotive both to run on edge rails and be driven by adhesion, an arrangement that has been the conventional one ever since. Yet Blucher was far from perfect and over the next few years, while other engineers ignored the steam locomotive, Stephenson built a succession of them, each an improvement on the last.During this period many lives were lost in coalmines from explosions of gas ignited by miners' lamps. By observation and experiment (sometimes at great personal risk) Stephenson invented a satisfactory safety lamp, working independently of the noted scientist Sir Humphry Davy who also invented such a lamp around the same time.In 1817 George Stephenson designed his first locomotive for an outside customer, the Kilmarnock \& Troon Railway, and in 1819 he laid out the Hetton Colliery Railway in County Durham, for which his brother Robert was Resident Engineer. This was the first railway to be worked entirely without animal traction: it used inclined planes with stationary engines, self-acting inclined planes powered by gravity, and locomotives.On 19 April 1821 Stephenson was introduced to Edward Pease, one of the main promoters of the Stockton \& Darlington Railway (S \& DR), which by coincidence received its Act of Parliament the same day. George Stephenson carried out a further survey, to improve the proposed line, and in this he was assisted by his 18-year-old son, Robert Stephenson, whom he had ensured received the theoretical education which he himself lacked. It is doubtful whether either could have succeeded without the other; together they were to make the steam railway practicable.At George Stephenson's instance, much of the S \& DR was laid with wrought-iron rails recently developed by John Birkinshaw at Bedlington Ironworks, Morpeth. These were longer than cast-iron rails and were not brittle: they made a track well suited for locomotives. In June 1823 George and Robert Stephenson, with other partners, founded a firm in Newcastle upon Tyne to build locomotives and rolling stock and to do general engineering work: after its Managing Partner, the firm was called Robert Stephenson \& Co.In 1824 the promoters of the Liverpool \& Manchester Railway (L \& MR) invited George Stephenson to resurvey their proposed line in order to reduce opposition to it. William James, a wealthy land agent who had become a visionary protagonist of a national railway network and had seen Stephenson's locomotives at Killingworth, had promoted the L \& MR with some merchants of Liverpool and had carried out the first survey; however, he overreached himself in business and, shortly after the invitation to Stephenson, became bankrupt. In his own survey, however, George Stephenson lacked the assistance of his son Robert, who had left for South America, and he delegated much of the detailed work to incompetent assistants. During a devastating Parliamentary examination in the spring of 1825, much of his survey was shown to be seriously inaccurate and the L \& MR's application for an Act of Parliament was refused. The railway's promoters discharged Stephenson and had their line surveyed yet again, by C.B. Vignoles.The Stockton \& Darlington Railway was, however, triumphantly opened in the presence of vast crowds in September 1825, with Stephenson himself driving the locomotive Locomotion, which had been built at Robert Stephenson \& Co.'s Newcastle works. Once the railway was at work, horse-drawn and gravity-powered traffic shared the line with locomotives: in 1828 Stephenson invented the horse dandy, a wagon at the back of a train in which a horse could travel over the gravity-operated stretches, instead of trotting behind.Meanwhile, in May 1826, the Liverpool \& Manchester Railway had successfully obtained its Act of Parliament. Stephenson was appointed Engineer in June, and since he and Vignoles proved incompatible the latter left early in 1827. The railway was built by Stephenson and his staff, using direct labour. A considerable controversy arose c. 1828 over the motive power to be used: the traffic anticipated was too great for horses, but the performance of the reciprocal system of cable haulage developed by Benjamin Thompson appeared in many respects superior to that of contemporary locomotives. The company instituted a prize competition for a better locomotive and the Rainhill Trials were held in October 1829.Robert Stephenson had been working on improved locomotive designs since his return from America in 1827, but it was the L \& MR's Treasurer, Henry Booth, who suggested the multi-tubular boiler to George Stephenson. This was incorporated into a locomotive built by Robert Stephenson for the trials: Rocket was entered by the three men in partnership. The other principal entrants were Novelty, entered by John Braithwaite and John Ericsson, and Sans Pareil, entered by Timothy Hackworth, but only Rocket, driven by George Stephenson, met all the organizers' demands; indeed, it far surpassed them and demonstrated the practicability of the long-distance steam railway. With the opening of the Liverpool \& Manchester Railway in 1830, the age of railways began.Stephenson was active in many aspects. He advised on the construction of the Belgian State Railway, of which the Brussels-Malines section, opened in 1835, was the first all-steam railway on the European continent. In England, proposals to link the L \& MR with the Midlands had culminated in an Act of Parliament for the Grand Junction Railway in 1833: this was to run from Warrington, which was already linked to the L \& MR, to Birmingham. George Stephenson had been in charge of the surveys, and for the railway's construction he and J.U. Rastrick were initially Principal Engineers, with Stephenson's former pupil Joseph Locke under them; by 1835 both Stephenson and Rastrick had withdrawn and Locke was Engineer-in-Chief. Stephenson remained much in demand elsewhere: he was particularly associated with the construction of the North Midland Railway (Derby to Leeds) and related lines. He was active in many other places and carried out, for instance, preliminary surveys for the Chester \& Holyhead and Newcastle \& Berwick Railways, which were important links in the lines of communication between London and, respectively, Dublin and Edinburgh.He eventually retired to Tapton House, Chesterfield, overlooking the North Midland. A man who was self-made (with great success) against colossal odds, he was ever reluctant, regrettably, to give others their due credit, although in retirement, immensely wealthy and full of honour, he was still able to mingle with people of all ranks.[br]Principal Honours and DistinctionsPresident, Institution of Mechanical Engineers, on its formation in 1847. Order of Leopold (Belgium) 1835. Stephenson refused both a knighthood and Fellowship of the Royal Society.Bibliography1815, jointly with Ralph Dodd, British patent no. 3,887 (locomotive drive by connecting rods directly to the wheels).1817, jointly with William Losh, British patent no. 4,067 (steam springs for locomotives, and improvements to track).Further ReadingL.T.C.Rolt, 1960, George and Robert Stephenson, Longman (the best modern biography; includes a bibliography).S.Smiles, 1874, The Lives of George and Robert Stephenson, rev. edn, London (although sycophantic, this is probably the best nineteenthcentury biography).PJGR -
71 valve
1) клапан; вентиль2) задвижка; затвор4) кран5) мн. ч. вентильная арматура•to time the valves — регулировать газораспределение ( двигателя)-
2-axis hydraulic contouring valve
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3-axis hydraulic contouring valve
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3-position spring-centered selector valve
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ac solenoid hydraulic directional valve
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accumulator charging valve
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accumulator unloading valve
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adjustable valve
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admission valve
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ahead maneuvering valve
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air control valve
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air filler valve
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air valve
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air-gap armature hydraulic valve
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air-operated valve
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air-starting valve
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air-steam relief valve
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air-vent valve
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alarm valve
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aligned-grid valve
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amplifier valve
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angle valve
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annular slide valve
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antibackfire valve
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antiicing shutoff valve
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astern maneuvering valve
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atmospheric steam dump valve
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automatic changeover valve
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auxiliary loop isolation valve
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auxiliary valve
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back pressure valve
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back valve
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backfire bypass valve
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backflush valve
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back-seating valve
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backwash valve
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baffle valve
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balanced needle valve
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balanced valve
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balanced-disk valve
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balanced-gate valve
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ball and scat valve
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ball seating action valve
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ball shear action valve
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ball valve
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ball-operated pneumatic valve
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beam-power valve
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bin slide valve
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blade-control valve
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bleeder valve
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bleed valve
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block valve
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blowing valve
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blowoff valve
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blowout valve
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bottom discharge valve
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bottom dump valve
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bottom-hole valve
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brake application valve
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brake cylinder release valve
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brake hydraulic valve
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brake transmission valve
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brake valve
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breathing valve
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bulkhead valve
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bullet valve
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butterfly valve
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bypass proportional valve
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bypass valve
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cam-operated pneumatic valve
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cargo oil valve
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cargo valve
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cartridge-type valve
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casing fill-up valve
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casing float valve
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casing pressure operated gas lift valve
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cement float valve
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centrifugal reducing valve
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changeover valve
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charging valve
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check valve
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chimney slide valve
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chimney valve
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choke valve
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Christmas-tree gate valve
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Christmas-tree valve
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combined stop and emergency valve
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common slide valve
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compartment valve
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compensation valve
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compression valve
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compressor bleed valve
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conditioned air emergency valve
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conductor's valve
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cone valve
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control valve
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converter valve
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coolant flow-control valve
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cooler bypass valve
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copying valve
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counterbalance valve
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crankcase valve
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crankcase ventilation valve
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crossfeed valve
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crude oil valve
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cryogenic gate valve
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cutoff valve
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cutout valve
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cylinder-operated pneumatic valve
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cylindrical valve
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damper valve
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dc solenoid hydraulic directional valve
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deceleration flow control valve
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deceleration valve
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deck drain valve
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decompression pressure control valve
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delivery valve
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depress valve
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detent-controlled valve
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diaphragm seating action valve
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diaphragm valve
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differential lock valve
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differential pressure control valve
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differential relief valve
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direct-acting valve
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direct-admission valve
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direction selector valve
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directional control valve
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directly operated valve
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discharge valve
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disk valve
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distributing valve
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distribution valve
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diverter valve
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double air-piloted valve
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double-acting valve
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double-check valve
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double-seat valve
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double-solenoid valve
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drain valve
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dual block gate valve
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dual block valve
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dump valve
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duplex valve
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duplicator valve
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eduction valve
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ejection valve
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electric valve
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electric-to-air valve
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electrohydraulic servo valve
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electromagnetic valve
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electronic valve
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emergency closing valve
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emergency valve
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emergency-braking valve
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en-bloc directional control hydraulic valve
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engine start valve
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engineer's brake valve
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equalizing tester valve
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equalizing valve
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escape valve
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evaporator refrigerant valve
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exhaust brake valve
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exhaust valve
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exit-juice valve
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expansion valve
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explosive valve
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extraction valve
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feeding valve
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feed valve
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feedwater valve
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fill valve
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five-port control valve
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five-port valve
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fixed flow control valve
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fixed-dispersion cone valve
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flap valve
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flapper action valve
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flapper valve
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flat gate valve
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flat valve
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flat-scat fuel valve
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Fleming valve
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float valve
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float-controlled gate valve
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float-controlled valve
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flooding valve
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flood valve
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flow control valve
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flow directing valve
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flow dividing valve
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flow metering valve
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flow restrictor valve
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flow safety valve
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flow summarizing valve
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flow-regulating valve
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fluid check valve
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flushing and boost valve
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follow valve
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follower-ring gate valve
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foot valve
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foot-operated pneumatic valve
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force motor valve
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forcing valve
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four/three-way hydraulic directional control valve
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four-port control valve
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four-port valve
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four-way directional control valve
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four-way valve
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free-discharge valve
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fuel shutoff valve
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fuel supply valve
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fuel valve
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fuel-lock valve
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fume valve
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gas charging valve
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gas cylinder valve
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gas lift starting valve
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gas lift valve
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gas reversing valve
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gate valve
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geared valve
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globe valve
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guard valve
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guard's valve
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gulp valve
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hand-operated valve
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heat control valve
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high-head regulating valve
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high-pressure gate valve
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high-pressure relief valve
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holding valve
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hollow-jet valve
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hydraulic copying valve
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hydraulic pressure gage selector valve
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hydraulic valve
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inclined valve
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indirect-action valve
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induction valve
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injection valve
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injector valve
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inlet valve
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in-line air valve
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intake valve
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intercept valve
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interior differential needle valve
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intermediate-plate type valve
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internal check valve
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inverted valve
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ionic valve
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isolation valve
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jet action valve
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jet-pipe valve
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jettison valve
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kelly safety valve
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king valve
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kingston valve
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leak valve
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lever safety valve
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light valve
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liquid-crystal valve
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load dividing pressure control valve
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lock emptying valve
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lock filling valve
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lock valve
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low-cracking check valve
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magnetic valve
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main feedwater control valve
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main loop isolation valve
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main penstock valve
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main pipeline gate valve
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main pipeline valve
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main steam stop valve
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main tester valve
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make-up valve
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maneuvering valve
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manifold air valve
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manifold valve
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manual valve
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masked inlet valve
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master control gate valve
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master gate valve
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master valve
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measuring valve
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membrane valve
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mercury arc valve
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mercury valve
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metering valve
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mixer valve
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mod-logic pneumatic valve
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modular hydraulic valves
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modular-type control valve
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modulating valve
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moisture drain valve
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motor-operated valve
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multiple station isolator valve
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multiple valve
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multiway valve
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mushroom valve
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needle seating action valve
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needle valve
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neutralizer valve
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new fuel entry valve
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nonreturn valve
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nozzle control valve
-
nozzle valve
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oil drain valve
-
oil-controlled valve
-
oil-overflow valve
-
oil-pressure relief valve
-
oil-pressure valve
-
one-port control valve
-
one-port valve
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one-stage valve
-
one-way control valve
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one-way valve
-
on-off valve
-
open center valve
-
orchard valve
-
outboard valve
-
outlet valve
-
overflow valve
-
overlapped valve
-
overload valve
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overrun valve
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overspeed valve
-
palm button operated pneumatic valve
-
penstock valve
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pet valve
-
pig scraper launching valve
-
pig launching valve
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pig scraper receiver valve
-
pig receiver valve
-
pilot overspeed valve
-
pilot valve
-
pilot-actuated valve
-
pilot-controlled valve
-
pilot-operated check valve
-
pilot-operated valve
-
pipe valve
-
pipeline valves
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piston valve
-
piston-operated spool valve
-
plug seating action valve
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plug shear action valve
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plug valve
-
pneumatic control valve
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pneumatic time delay valve
-
pneumatic valve
-
poppet valve
-
poppet-operated pneumatic valve
-
power valve
-
pressure control valve
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pressure reducing valve
-
pressure regulating valve
-
pressure sequenced valve
-
pressure valve
-
pressure-vacuum vent valve
-
pressure vent valve
-
pressure-and-vacuum valve
-
pressure-compensated flow control valve
-
pressure-compensated valve
-
pressure-limiting valve
-
pressure-operated pneumatic valve
-
pressure-relief valve
-
pressurizer isolation valve
-
pressurizing cabin valve
-
priming valve
-
priority valve
-
production gate valve
-
production valve
-
proportional control hydraulic valve
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proportional pressure control valve
-
proportioning valve
-
pump discharge valve
-
purge valve
-
push-button operated pneumatic valve
-
push-button valve
-
quarter-turn valve
-
quick exhaust air valve
-
rebound valve
-
rectifier valve
-
reducing valve
-
reed-type valve
-
reed valve
-
re-entry valve
-
register valve
-
regulating valve
-
relay valve
-
release valve
-
relief valve
-
replenishing valve
-
restrictor valve
-
retaining valve
-
retardation valve
-
retarder valve
-
retrievable valve
-
return valve
-
reverse Tainter valve
-
reverse valve
-
reversible flow metering valve
-
revolving valve
-
ride control valve
-
roller-operated pneumatic valve
-
rolling lift valve
-
rotary directional hydraulic valve
-
rotary disk operated pneumatic valve
-
rotary valve
-
safety valve
-
sampling valve
-
sand valve
-
scour valve
-
screw-down valve
-
screw valve
-
scupper valve
-
sea-suction valve
-
seating action valve
-
seat valve
-
selection valve
-
selector directional control valve
-
selector valve
-
self-sealing hydraulic valve
-
sequence valve
-
shaft valve
-
shear action valve
-
shrouded valve
-
shutoff gate valve
-
shutoff valve
-
singe-seat valve
-
single solenoid valve
-
single-acting valve
-
single-stage valve
-
sleeve valve
-
slide valve
-
sliding plate shear action valve
-
sluice valve
-
snap-in valve
-
snort valve
-
sodium-filled exhaust valve
-
solar panel valve
-
solenoid valve
-
solenoid-operated hydraulic valve
-
sphere valve
-
spherical valve
-
sphincter valve
-
spool operated pneumatic valve
-
spool valve
-
spray valve
-
spring centering directional control hydraulic valve
-
spring centralized air valve
-
spring offset valve
-
spring operated valve
-
spring-loaded valve
-
standing valve
-
start valve
-
steam dump valve
-
steam valve
-
steering-damping control valve
-
stop valve
-
straight flow valve
-
straight-through valve
-
suction valve
-
supply valve
-
surface-controlled gas lift valve
-
surge damping valve
-
swing disk seating action valve
-
swing-check valve
-
tank manifold valves
-
tank valves
-
tank-pipeline valve
-
tapered-seat valve
-
taper-seat valve
-
telescopic valve
-
telltale valve
-
thermionic valve
-
thermostatic expansion valve
-
thermostatic valve
-
three-port control valve
-
three-port valve
-
throttle valve
-
throttling direction control valve
-
thyristor valve
-
tidal valve
-
tilting disk check valve
-
time delay valve
-
toggle valve
-
tractor breakaway valve
-
transmission spark control valve
-
traveling valve
-
treadle-operated pneumatic valve
-
trip tester valve
-
tube valve
-
tubing pressure operated gas lift valve
-
tubing safety valve
-
turbine inlet valve
-
turbine shutoff valve
-
twinned-regenerator valve
-
two/two-way hydraulic valve
-
two-port control valve
-
two-port valve
-
two-position pneumatic valve
-
two-stage valve
-
two-way control valve
-
two-way valve
-
uncoupling valve
-
underlapped valve
-
unloading valve
-
vacuum valve
-
vapor valve
-
variable load valve
-
variable valve
-
vent valve
-
ventilation valve
-
venting valve
-
washout valve
-
water valve
-
water-gate valve
-
waveguide valve
-
wedge gate valve
-
wedge valve
-
wedge-action valve
-
wet armature hydraulic valve
-
whistle valve
-
zero-lapped valve -
72 ratio
отношение, соотношение, пропорция; степень; коэффициент, см. тж. coefficient; передаточное число [отношение]all-out level/stalling speed ratio — относительный диапазон скоростей полёта (отношение максимальной скорости горизонтального полёта к скорости сваливания)
base(-altltude, -height) ratio — отношение величины базиса фотографирования к высоте
burning (surface)-to-throat (area) ratio — отношение поверхности горения к площади критического сечения сопла (в РДТТ)
chamber volume-to-throat area ratio — приведенная [характеристическая] длина камеры сгорания
envelope-bulk to weight ratio — отношение объёма, занимаемого двигателем, к его сухому весу
lift-(over, to-)drag ratio — аэродинамическое качество
main rotor/engine r.p.m. ratio — степень редукции между двигателем, и несущим винтом, соотношение чисел оборотов несущего винта и вала двигателя
maintenance (man hours)-to-flight (hours) ratio — соотношение объёма работ по наземному обслуживанию (в человеко-часах) и налёта
mixing ratio of moist air — метео. влагосодержаиие
port(-to-)throat ratio — относительная свободная площадь (отношение свободной площади к площади критического сечения сопла)
ratio of specific heats — отношение удельных теплоёмкостей, показатель адиабаты
stoichiometric (equivalence, mixture) ratio — стехиометрическое соотношение компонентов топлива, стехиометрический коэффициент состава топлива
— - to-thrust ratio -
73 fuel
1. noun2. transitive verb,add fuel to the flames or fire — (fig.) Öl ins Feuer gießen
(Brit.) - ll- auftanken [Schiff, Flugzeug]; (fig.): (stimulate) Nahrung geben (+ Dat.) [Verdacht, Spekulationen]; anheizen [Inflation]* * *['fjuəl] 1. noun(any substance by which a fire, engine etc is made to work (eg coal, oil, petrol): The machine ran out of fuel.) der Brennstoff2. verb(to give or take fuel: The tanker will leave when it has finished fuelling / being fuelled.) auftanken,bunkern* * *I. nnuclear \fuel reprocessing plant atomare Wiederaufbereitungsanlageleaded/unleaded \fuel verbleites/bleifreies BenzinII. vtto \fuel sb's hatred/resentment jds Hass/Unmut schüren gehto \fuel speculation Spekulationen anheizen* * *[fjʊəl]1. nBrennstoff m, Brennmaterial nt; (for vehicle) Kraftstoff m; (= petrol) Benzin nt; (AVIAT, SPACE) Treibstoff m; (fig) Nahrung fto add fuel to the flames or fire (fig) — Öl in die Flammen or ins Feuer gießen
See:→ solid fuel2. vt(= fill) stove, furnace etc mit Brennstoff versorgen; ships etc auftanken, betanken; (= use for fuel) betreiben; (= drive, propel) antreiben; (fig) conflict schüren; debate anfachen; inflation anheizen; speculation Nahrung geben (+dat)by oil —
3. vi(ship, engine, aircraft) auftanken, Brennstoff/Treibstoff etc aufnehmenfuelling stop — Landung f zum Auftanken
* * *fuel [ˈfjʊəl]A v/t prät und pperf -eled, besonders Br -elled2. die Inflation etc anheizen, Gerüchte etc schürenB v/i1. Brennstoff nehmenC s1. Brennstoff m:a) Heiz-, Brennmaterial n, Feuerung(smaterial) f(n)b) AUTO etc Betriebs-, Treib-, Kraftstoff m:fuel-air mixture Kraftstoff-Luft-Gemisch n;fuel consumption Kraftstoff-, Benzinverbrauch m;fuel-efficient Benzin sparend (Motor etc);fuel feed Brennstoffzuleitung f;fuel filter Kraftstoff-, Benzinfilter n/m;fuel injection Kraftstoffeinspritzung f;fuel-injection engine Einspritzmotor m;fuel jet, fuel nozzle Kraftstoffdüse f;fuel oil Heizöl n;fuel pipe Benzinleitung f;fuel pump Kraftstoff-, Benzinpumpe f;fuel-thrifty Benzin sparend (Motor etc)2. fig Nahrung f:add fuel to → A 2;add fuel to the flames Öl ins Feuer gießen* * *1. nounBrennstoff, der; (for vehicle) Kraftstoff, der; (for ship, aircraft, spacecraft) Treibstoff, der2. transitive verb,add fuel to the flames or fire — (fig.) Öl ins Feuer gießen
(Brit.) - ll- auftanken [Schiff, Flugzeug]; (fig.): (stimulate) Nahrung geben (+ Dat.) [Verdacht, Spekulationen]; anheizen [Inflation]* * *n.Brennmaterial n.Brennstoff m.Kraftstoff m.Treibgas -e n.Treibstoff m. v.tanken v. -
74 drive
1. привод, передача2. вытеснение нефти (газом, водой), пластовый режим3. приводить в движение, вращатьcombination solution gas and water drive — смешанный режим (пласта): растворенного газа и водонапорный
high pressure gas drive — вытеснение газом высокого давления (в случае вытеснения в условиях смешиваемости); газовый режим с испарением
solution-gas-gas cap water drive — смешанный пластовый режим растворенного газа, газовой шапки и водонапорный
— drive in— drive up
* * *
1. привод2. передача4. режим ( в коллекторе нефти)
* * *
1. вытеснение нефти (газом, водой), пластовый режим2. привод; передача3. теснить, вытеснять; проходить горизонтальную выработку
* * *
1. вытеснение нефти (газом, водой), пластовый режим2. привод; передача
* * *
1) привод, передача2) передача3) вытеснение (<<нефти из коллектора газом>)4) режим (); пластовый режим•- air driveto drive a borehole — бурить скважину;
- air oil drive
- artificial drive
- ball joint drive
- belt drive
- bottom drive
- bottom-water drive
- cam drive
- carbonated water drive
- chain drive
- chain-and-sprocket drive
- combination drive
- combination gas-and-water drive
- combustion drive
- compressed-air drive
- condensation gas drive
- continuous steam drive
- cyclic carbon dioxide drive
- depletion drive
- dissolved gas drive
- drum drive
- dual drive
- eccentric drive
- edge water drive
- elastic drive
- elastic water drive
- elastic water gravity drive
- electrical drive
- emergency drive
- enriched gas drive
- exhaust gas drive
- flexible drive
- flexible shaft drive
- fluid drive
- flywheel drive
- foam drive
- friction drive
- frontal drive
- frontal water drive
- gas drive
- gas cap drive
- gear drive
- gravity drive
- half-wrap drive
- high pressure gas drive
- Hild differential drive
- hot water drive
- hydraulic drive
- hydraulic pump drive
- inert gas drive
- internal gas drive
- kelly drive
- line drive
- linear drive
- magnetic drive
- main motor drive
- miscible drive
- motor drive
- multiple V-belt drive
- natural drive
- natural reservoir drive
- natural water drive
- oil-electrical drive
- partial water drive
- pattern drive
- pinion drive
- pneumatical drive
- positive drive
- probable drive
- pump drive
- quadruple chain drive
- rack-and-gear drive
- radial drive
- ram drive
- rope drive
- segregation drive
- short center belt drive
- solution gas drive
- solution-gas gas-cap drive
- solution-gas drive
- gas-cap and water drive
- speed fluid drive
- sprocket drive
- steam drive
- subsurface pump drive
- telescopic screw drive
- texrope drive
- thermal drive
- traction drive
- turbine drive
- twin drive
- two-speed drive
- unit drive
- variable speed fluid drive
- V-belt drive
- water drive
- water-gravity drive
- wedge drive* * *• вращать• забивать• режим -
75 ratio
(со)отношение; коэффициент; степень; уменьшать [увеличивать] в масштабе; устанавливать (со)отношение [пропорцию]length-to-diameter ratio (of the penetrator) — относительное удлинение, отношение длины канала ствола к калибру
— firepower-to-manpower ratio— forces ratio -
76 truck
грузовой автомобиль; небольшое колесо; тележка для перевозки грузов; товарная платформа; каток; II перевозить на грузовых автомобилях; амер. водить грузовик; работать водителем грузовика- truck chassis - truck-drawn artillery - truck driver - truck hauling - truck park - truck scales - truck scraper - truck shortage - truck shovel - truck standing - truck tyre - truck tyre casing - truck with bottom dump body - truck with end dump body - cesspoolage truck - Diesel-powered truck - insulated food tank truck - kitchen truck - lift truck - platform truck - ration truck - refrigerated tank truck - utility truck - waggon truck - water truck - welding truck - winch truck - workshop truck - wrecker truck -
77 Carnot, Nicolas Léonard Sadi
SUBJECT AREA: Steam and internal combustion engines[br]b. 1 June 1796 Paris, Franced. 24 August 1831 Paris, France[br]French laid the foundations for modern thermodynamics through his book Réflexions sur la puissance motrice du feu when he stated that the efficiency of an engine depended on the working substance and the temperature drop between the incoming and outgoing steam.[br]Sadi was the eldest son of Lazare Carnot, who was prominent as one of Napoleon's military and civil advisers. Sadi was born in the Palais du Petit Luxembourg and grew up during the Napoleonic wars. He was tutored by his father until in 1812, at the minimum age of 16, he entered the Ecole Polytechnique to study stress analysis, mechanics, descriptive geometry and chemistry. He organized the students to fight against the allies at Vincennes in 1814. He left the Polytechnique that October and went to the Ecole du Génie at Metz as a student second lieutenant. While there, he wrote several scientific papers, but on the Restoration in 1815 he was regarded with suspicion because of the support his father had given Napoleon. In 1816, on completion of his studies, Sadi became a second lieutenant in the Metz engineering regiment and spent his time in garrison duty, drawing up plans of fortifications. He seized the chance to escape from this dull routine in 1819 through an appointment to the army general staff corps in Paris, where he took leave of absence on half pay and began further courses of study at the Sorbonne, Collège de France, Ecole des Mines and the Conservatoire des Arts et Métiers. He was inter-ested in industrial development, political economy, tax reform and the fine arts.It was not until 1821 that he began to concentrate on the steam-engine, and he soon proposed his early form of the Carnot cycle. He sought to find a general solution to cover all types of steam-engine, and reduced their operation to three basic stages: an isothermal expansion as the steam entered the cylinder; an adiabatic expansion; and an isothermal compression in the condenser. In 1824 he published his Réflexions sur la puissance motrice du feu, which was well received at the time but quickly forgotten. In it he accepted the caloric theory of heat but pointed out the impossibility of perpetual motion. His main contribution to a correct understanding of a heat engine, however, lay in his suggestion that power can be produced only where there exists a temperature difference due "not to an actual consumption of caloric but to its transportation from a warm body to a cold body". He used the analogy of a water-wheel with the water falling around its circumference. He proposed the true Carnot cycle with the addition of a final adiabatic compression in which motive power was con sumed to heat the gas to its original incoming temperature and so closed the cycle. He realized the importance of beginning with the temperature of the fire and not the steam in the boiler. These ideas were not taken up in the study of thermodynartiics until after Sadi's death when B.P.E.Clapeyron discovered his book in 1834.In 1824 Sadi was recalled to military service as a staff captain, but he resigned in 1828 to devote his time to physics and economics. He continued his work on steam-engines and began to develop a kinetic theory of heat. In 1831 he was investigating the physical properties of gases and vapours, especially the relationship between temperature and pressure. In June 1832 he contracted scarlet fever, which was followed by "brain fever". He made a partial recovery, but that August he fell victim to a cholera epidemic to which he quickly succumbed.[br]Bibliography1824, Réflexions sur la puissance motrice du feu; pub. 1960, trans. R.H.Thurston, New York: Dover Publications; pub. 1978, trans. Robert Fox, Paris (full biographical accounts are provided in the introductions of the translated editions).Further ReadingDictionary of Scientific Biography, 1971, Vol. III, New York: C.Scribner's Sons. T.I.Williams (ed.), 1969, A Biographical Dictionary of Scientists, London: A. \& C.Black.Chambers Concise Dictionary of Scientists, 1989, Cambridge.D.S.L.Cardwell, 1971, from Watt to Clausius. The Rise of Thermodynamics in the Early Industrial Age, London: Heinemann (discusses Carnot's theories of heat).RLHBiographical history of technology > Carnot, Nicolas Léonard Sadi
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78 Ewart, Peter
SUBJECT AREA: Textiles[br]b. 14 May 1767 Traquair, near Peebles, Scotlandd. September 1842 London, England[br]Scottish pioneer in the mechanization of the textile industry.[br]Peter Ewart, the youngest of six sons, was born at Traquair manse, where his father was a clergyman in the Church of Scotland. He was educated at the Free School, Dumfries, and in 1782 spent a year at Edinburgh University. He followed this with an apprenticeship under John Rennie at Musselburgh before moving south in 1785 to help Rennie erect the Albion corn mill in London. This brought him into contact with Boulton \& Watt, and in 1788 he went to Birmingham to erect a waterwheel and other machinery in the Soho Manufactory. In 1789 he was sent to Manchester to install a steam engine for Peter Drinkwater and thus his long connection with the city began. In 1790 Ewart took up residence in Manchester as Boulton \& Watt's representative. Amongst other engines, he installed one for Samuel Oldknow at Stockport. In 1792 he became a partner with Oldknow in his cotton-spinning business, but because of financial difficulties he moved back to Birmingham in 1795 to help erect the machines in the new Soho Foundry. He was soon back in Manchester in partnership with Samuel Greg at Quarry Bank Mill, Styal, where he was responsible for developing the water power, installing a steam engine, and being concerned with the spinning machinery and, later, gas lighting at Greg's other mills.In 1798, Ewart devised an automatic expansion-gear for steam engines, but steam pressures at the time were too low for such a device to be effective. His grasp of the theory of steam power is shown by his paper to the Manchester Literary and Philosophical Society in 1808, On the Measure of Moving Force. In 1813 he patented a power loom to be worked by the pressure of steam or compressed air. In 1824 Charles Babbage consulted him about automatic looms. His interest in textiles continued until at least 1833, when he obtained a patent for a self-acting spinning mule, which was, however, outclassed by the more successful one invented by Richard Roberts. Ewart gave much help and advice to others. The development of the machine tools at Boulton \& Watt's Soho Foundry has been mentioned already. He also helped James Watt with his machine for copying sculptures. While he continued to run his own textile mill, Ewart was also in partnership with Charles Macintosh, the pioneer of rubber-coated cloth. He was involved with William Fairbairn concerning steam engines for the boats that Fairbairn was building in Manchester, and it was through Ewart that Eaton Hodgkinson was introduced to Fairbairn and so made the tests and calculations for the tubes for the Britannia Railway Bridge across the Menai Straits. Ewart was involved with the launching of the Liverpool \& Manchester Railway as he was a director of the Manchester Chamber of Commerce at the time.In 1835 he uprooted himself from Manchester and became the first Chief Engineer for the Royal Navy, assuming responsibility for the steamboats, which by 1837 numbered 227 in service. He set up repair facilities and planned workshops for overhauling engines at Woolwich Dockyard, the first establishment of its type. It was here that he was killed in an accident when a chain broke while he was supervising the lifting of a large boiler. Engineering was Ewart's life, and it is possible to give only a brief account of his varied interests and connections here.[br]Further ReadingObituary, 1843, "Institution of Civil Engineers", Annual General Meeting, January. Obituary, 1843, Manchester Literary and Philosophical Society Memoirs (NS) 7. R.L.Hills, 1987–8, "Peter Ewart, 1767–1843", Manchester Literary and PhilosophicalSociety Memoirs 127.M.B.Rose, 1986, The Gregs of Quarry Bank Mill The Rise and Decline of a Family Firm, 1750–1914, Cambridge (covers E wart's involvement with Samuel Greg).R.L.Hills, 1970, Power in the Industrial Revolution, Manchester; R.L.Hills, 1989, Powerfrom Steam, Cambridge (both look at Ewart's involvement with textiles and steam engines).RLH -
79 jet
1) безнасадочный
2) бить струя
3) водомет
4) водометный
5) воздушно-реактивный
6) гагатовый
7) жиклер
8) <astr.> джет
9) реактивный двигатель
10) сопловой
11) форсунка
12) струйный
13) распыление
14) инжектор
15) пароструйный
16) насадка
17) патрубок
18) рожок
19) факел
20) сопло
– accelerating jet
– air jet
– air-breathing jet engine
– arc-heating jet engine
– atmospheric jet engine
– auxiliary jet
– blow jet
– cargo jet
– clog jet
– coherent jet
– control jet
– cutting jet
– deflect jet
– disturb jet
– fuel jet
– full-power jet
– gas turbine jet engine
– hydraulic jet
– idling jet
– ink jet printing
– ion rocket jet engine
– jet action
– jet airplane
– jet analysis
– jet blower
– jet burner
– jet casing cutter
– jet compressor
– jet control
– jet converges
– jet device
– jet diameter
– jet disintegrates
– jet diverges
– jet dredge
– jet engine
– jet engine fuel
– jet etching
– jet flap
– jet flow
– jet formation
– jet fuel
– jet loom
– jet machine
– jet mill
– jet mixer
– jet nozzle
– jet orifice
– jet propeller
– jet propulsion
– jet pump
– jet regulation
– jet sheet
– jet test
– jet thrust
– jet vacuum pump
– jet vane
– jet wash
– liquid-propellant jet engine
– plasma jet
– reaction jet
– starting jet
– steam jet booster
– steam jet injector
– swirl jet
– turbulent jet
– water jet
jet engine starter system — <engin.> турбостартер
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80 low
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