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1 high compression ratio engine
Авиация: двигатель с высокой степенью сжатияУниверсальный англо-русский словарь > high compression ratio engine
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2 high compression ratio engine
Англо-русский словарь по авиации > high compression ratio engine
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3 high compression ratio engine
English-Russian dictionary of terms that are used in computer games > high compression ratio engine
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4 high-compression-ratio engine
Englsh-Russian aviation and space dictionary > high-compression-ratio engine
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5 high compression ratio engine
English-Ukrainian dictionary of aviation terms > high compression ratio engine
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6 engine
engine nдвигательadjust the engineрегулировать двигатель до заданных параметровair-cooled engineавиационный двигатель воздушного охлажденияall engines speedскорость при всех работающих двигателяхaltitude engineвысотный двигательasymmetric engines powerасимметричная тяга двигателейaxial-flow итьбю.gas turbine engineгазотурбинный двигатель с осевым компрессоромblow down an engineвыполнять холодный запуск двигателяboost engineфорсажный двигательbypass engineдвухконтурный двигательcenter engineсредний двигательclose down an engineостанавливать двигательcombustion engineдвигатель внутреннего сгоранияcritical engine failure speedскорость при отказе критического двигателяcut-off engine operationпорядок выключения двигателяdead engineотказавший двигательdecelerate an engineубирать обороты двигателяdefinitive engineокончательный вариант двигателяderated engineдвигатель с пониженной тягойdigital engine controlцифровой электронный регулятор режимов работы двигателяdouble-flow engineдвухконтурный турбореактивный двигательdouble-row radial engineдвигатель типа двухрядная звездаdual-flow turbojet engineдвухконтурный турбореактивный двигательduct burning bypass engineдвухконтурный турбореактивный двигатель с дожиганием топлива во втором контуреducted-fan engineдвухконтурный турбовентиляторный двигательelectronic engine control systemэлектронная система управления двигателемengine accessory gear boxкулачковый механизмengine acoustic performanceакустическая характеристика двигателяengine adapterприставка двигателяengine adjustmentрегулировка двигателяengine air bleed flangeфланец отбора воздуха от двигателяengine airflowрасход воздуха через двигательengine altitude performancesвысотные характеристики двигателяengine anti-icing systemпротивообледенительная система двигателей(постоянного действия) engine attach fittingузел подвески двигателяengine attachment pilotшкворень крепления двигателяengine backup ringопорное кольцо вала двигателяengine baffleдефлектор двигателяengine bayдвигательный отсекengine bellcrankкачалка системы управленияengine blastструя двигателяengine breather systemсистема суфлирования двигателяengine bulkheadперегородка двигателяengine check padотбойный щит для опробования двигателейengine compartmentотсек двигателяengine control systemсистема управления двигателемengine coolingохлаждение двигателяengine coreвнутренний контур двигателяengine cowlкапот двигателяengine cowl flapстворка капота двигателяengine crankingраскрутка двигателяengine critical altitudeвысотность двигателяengine cycleцикл двигателяengine cylinderцилиндр двигателяengine deicing systemпротивообледенительная система двигателей(переменного действия) engine detunerглушитель двигателяengine developmentдоводка двигателяengine dollyтележка для транспортировки двигателейengine drive shaftглавный вал двигателяengine dry startingхолодная прокрутка двигателяengine duct treatmentоблицовка каналов двигателяengine emissionэмиссия от двигателейengine failureотказ двигателяengine false startingложный запуск двигателяengine fanвентилятор двигателяengine fire shieldпротивопожарный экран двигателяengine fuel systemтопливная система двигателяengine gasketпрокладка в системе двигателяengine generator coolingобдув генератора двигателяengine ground test timeвремя опробования двигателя на землеengine hot startingзапуск двигателя с забросом температуры(выше допустимой) engine impellerрабочее колесо двигателяengine installationустановка двигателяengine internal fineпожар внутри двигателяengine jacketкожух двигателяengine lifting beamбалка крепления двигателяengine lifting deviceприспособление для подъема двигателяengine limit governorрегулятор предельных оборотов двигателяengine moduleмодуль двигателяengine module constructionмодульная конструкцияengine mountрама крепления двигателяengine mount beamбалка крепления двигателяengine mounting attachmentузел крепления двигателяengine mounting railsрельсы закатки двигателяengine mounting trunnionцапфа подвески двигателяengine mount strutстойка подмоторной рамыengine nacelleгондола двигателяengine offвыключенный двигательengine onработающий двигательengine operating timeнаработка двигателяengine outотказавший двигательengine overspeedзаброс оборотов двигателяengine performancesхарактеристики двигателяengine pylonпилон двигателяengine relightвстречный запуск двигателяengine retainerпроставка двигателяengine roll-in fittingузел закатки двигателяengine rundownвыбег двигателяengine runin timeвремя обкатки двигателяengine runningработа двигателяengine run-up operationопробование двигателяengine screenфильтр двигателяengine seizureзаклинивание двигателяengine setting-upотладка двигателяengine speed holdupзависание оборотов двигателяengine speed lossпадение оборотов двигателяengine starterстартер двигателяengine starter buttonкнопка запуска двигателяengine startingзапуск двигателяengine starting procedureпорядок запуска двигателяengine starting systemсистема запуска двигателейengine start modeработа в режиме запуска двигателяengine start systemсистема запуска двигателейengine start valveклапан запуска двигателяengines trend monitoringконтроль состояния двигателейengine tachometer indicatorуказатель оборотов двигателяengine takeoff speedчисло оборотов двигателя на взлетном режимеengine tearwayотрыв двигателяengine test baseиспытательная станцияengine test benchстенд для испытания двигателейengine throttleсектор газа двигателяengine throttle control leverрычаг раздельного управления газом двигателяengine throttle interlock systemсистема блокировки управления двигателемengine thrustтяга двигателяengine thrust marginизбыток тяги двигателяengine timingрегулирование зажигания двигателяengine torqueкрутящий моментengine torquemeter mechanismмеханизм измерителя крутящего момента на валу двигателяengine troubleперебои в работе двигателяengine vent systemдренажная система двигателейengine vibrationтряска двигателяengine vibration indicating systemсистема индикации виброперегрузок двигателяengine vibration indicatorуказатель вибрации двигателяengine wet startingложный запуск двигателяfan-type engineтурбовентиляторный двигательfire an engineзапускать двигательfree-turbine engineдвигатель со свободной турбинойgas turbine engineгазотурбинный двигательhigh bypass ratio engineдвигатель с высокой степенью двухконтурностиhigh compression ratio engineдвигатель с высокой степенью сжатияidling engineдвигатель на режиме малого газаidling engine operationработа двигателя на режиме малого газаin-board engineдвигатель, установленный в фюзеляжеinflight engine testиспытание двигателя в полетеinstall an engineустанавливать двигательjet engineреактивный двигательleft-hand engineдвигатель с левым вращением ротораlift jet engineподъемный реактивный двигательlight an engineзапускать двигательlonger-lived engineдвигатель с большим ресурсомlow bypass ratio engineдвигатель с низкой степенью двухконтурностиmaximum engine overspeedмаксимально допустимый заброс оборотов двигателяmodular engineмодульный двигательmodular engine designмодульная конструкция двигателяnaccele-mounted engineдвигатель, установленный в мотогондолеon-wing mounted engineдвигатель, установленный на крылеopen up an engineдавать двигателю полный газoutboard engineдвигатель, установленный вне фюзеляжаpiston engineпоршневой двигательpodded engineдвигатель, установленный в отдельной гондолеport-outer engineлевый крайний двигательport-side engineлевый внешний двигательpreflight engine runпредполетное опробование двигателяpylon-mounted engineдвигатель, установленный на пилонеquiet engineбесшумный двигательradial engineзвездообразный двигательramjet engineпрямоточный воздушно-реактивный двигательreciprocating engineпоршневой двигательrestart the engine in flightзапускать двигатель в полетеright-hand engineдвигатель с правым вращением ротораrough engineразрегулированный двигательrough engine operationsперебои в работе двигателяrun-down engine operationвыбег двигателяrun in an engineобкатывать двигательrun up an engineопробовать двигательselection of engine modeвыбор режима работы двигателяself-aspirating engineдвигатель без наддуваshut down an engineостанавливать двигательside engineбоковой двигательside engine nacelleгондола двигателя на пилонеsimulated engine failureимитированный отказ двигателяsingle-rotor engineоднокаскадный двигательsingle-shaft turbine engineодновальный газотурбинный двигательslow down an engineснижать режим работы двигателяstarboard engineправый внешний двигательstart an engineзапускать двигательstarting engineпусковой двигательstarting engine operationзапуск двигателяstarting from an operating engineперекрестный запускsubsonic engineдозвуковой двигательthree-flow turbojet engineтрехконтурный турбореактивный двигательthree-pointer engine gageтрехстрелочный указатель двигателяthree-pointer engine gage unitтрехстрелочный указательthree-rotor turbofan engineтрехвальный турбовентиляторный двигательturbine engineгазотурбинный двигательturbofan engineтурбовентиляторный двигательturbojet engineтурбореактивный двигательturboprop engineтурбовинтовой двигательturboshaft engineтурбовальный двигательtwo-rotor engineдвухроторный двигательtwo-shaft turbine engineдвухвальный газотурбинный двигательtwo-spool engineдвухкаскадный двигательunder any kind of engine failureпри любом отказе двигателяunderwing engineподкрыльевой двигательunreverse an engineвыводить двигатель из режима реверсаuprated engineфорсированный двигательwarmed-up engineпрогретый двигательwarm up an engineпрогревать двигательwater-cooled engineдвигатель водяного охлажденияwinding engineлебедкаwing engineкрыльевой двигательwith an engine suddenly failedпри внезапном отказе двигателя -
7 high
high nантициклонaircraft high tension wiringэлектропроводка высокого напряжения на воздушном суднеextremely high frequencyкрайне высокая частота радиосвязиflight over the high seasполет над открытым моремhigh airfieldвысокогорная посадочная площадкаhigh bypass ratio engineдвигатель с высокой степенью двухконтурностиhigh cloudsоблака верхнего ярусаhigh compression ratio engineдвигатель с высокой степенью сжатияhigh density air trafficинтенсивное воздушное движениеhigh density traffic environmentусловия при высокой плотности воздушного движенияhigh drag configurationконфигурация при высоком сопротивленииhigher intermediate fareверхний предел тарифа промежуточного классаhigh frequencyвысокая частота радиосвязиhigh frequency propagationраспространение волн высокочастотного диапазонаhigh intensity runway lightsогни ВПП высокой интенсивностиhigh latitudeвысокие широтыhigh level networkсеть с высокой пропускной способностьюhigh level significant weather chartкарта особых явлений погоды в верхних слоях атмосферыhigh lift configurationконфигурация при высокой подъемной силеhigh nose-up attitudeположение с высоко поднятой носовой частью фюзеляжаhigh pitchбольшой шагhigh pressure filterфильтр высокого давленияhigh pressure pumpнасос высокого давленияhigh pressure rotorротор высокого давленияhigh speed taxiwayскоростная рулежная дорожкаhigh wingвысокорасположенное крылоmove the blades to higherутяжелять воздушный винтvery high frequency direction finderвысокочастотный пеленгатор -
8 compression
compression ribнервюра, воспринимающая нагрузку на сжатиеcompression ringкомпрессионное кольцоcompression shockскачок уплотненияcompression strokeтакт сжатияhigh compression ratio engineдвигатель с высокой степенью сжатияram compressionсжатие за счет скоростного напораshock strut compressionусадка амортизатораshock strut compression indicatorуказатель обжатия амортизатора -
9 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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10 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 -
11 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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12 ratio
airfoil thickness ratioотносительная толщина профиляaspect ratioотносительное удлинениеbearing ratioпоказатель плотности грунтаbypass ratioстепень двухконтурностиcarrier-to-noise ratioстепень помех по отношению к несущей частотеcompressor pressure ratioстепень повышения давления компрессоромcontrol-to-surface gear ratioпередаточное число системы управления рулемcost-benefit ratioстепень рентабельностиfilling ratioстепень наполненияfineness ratioаэродинамическое качествоgear ratioстепень редукцииhigh bypass ratio engineдвигатель с высокой степенью двухконтурностиhigh compression ratio engineдвигатель с высокой степенью сжатияlow bypass ratio engineдвигатель с низкой степенью двухконтурностиmass flow ratioмассовый расходmixture ratioкачество рабочей смесиmoderation ratioкоэффициент замедленияnet profit ratioстепень рентабельностиnozzle exhaust pressure ratioстепень перепада давления на срезе соплаoperating ratioстепень рентабельностиpitch-diameter ratioсоотношение шага и диаметраpressure ratioстепень сжатияpropeller solidity ratioкоэффициент заполнения воздушного винтаreduction ratioпередаточное числоsignal-to-noise ratioкоэффициент помехslip ratioкоэффициент скольженияuplift ratioстепень загрузкиuseful-to-takeoff load ratioвесовая отдача по полезной нагрузкеwing aspect ratioотносительное удлинение крылаwing taper ratioотносительное сужение крыла -
13 engine
1) двигатель, мотор2) ж.-д. локомотив3) машина4) процессор•to run up the engine — опробовать двигатель ( на режимах работы);to unreverse the engine — выводить двигатель из режима реверса-
light bulb engine
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accelerating engine
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adiabatic engine
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air breathing engine
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air engine
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air-cell engine
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air-chamber engine
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air-cooled engine
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aircraft engine
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air-feed jet engine
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air-injection engine
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airless-injection engine
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alcohol engine
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analytical engine
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anchor engine
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apogee engine
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approach-correcting engine
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arc jet engine
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arrow engine
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ascent engine
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assisted takeoff engine
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AV-1 engine
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aviation engine
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axial-flow gas turbine engine
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bare engine
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baseline engine
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basic engine
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beating engine
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bipropellant engine
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bismuth ion engine
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bleaching engine
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blowing engine
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blown engine
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booster engine
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boxer engine
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brake engine
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Brayton engine
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breaker engine
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bypass engine
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catalytic engine
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centrifugal expansion engine
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ceramic engine
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coaxial MPD engine
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cogging engine
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cold-reaction engine
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commercial engine
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compression ignition engine
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computing engine
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constant 1 engine
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conventional engine
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crankcase compression engine
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crest engine
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cross-compound blowing engine
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cross-mounted engine
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cryogenic expansion engine
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cryogenic rocket engine
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dead engine
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derated engine
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descent engine
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diesel engine
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diesel-electric engine
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difference engine
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digital engine
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direct-injection engine
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displacement engine
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docking engine
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donkey engine
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double-row engine
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double-row radial engine
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down-rated engine
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drilling engine
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dual-flow turbojet engine
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dual-mode engine
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duct-burning bypass engine
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ducted-fan engine
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electric arcjet engine
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electron-bombardment engine
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emergency propulsion engine
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energy-cell diesel engine
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erosion engine
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expansion engine
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external combustion engine
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F-head engine
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fire engine with extension ladder
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fire engine
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fixed head engine
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flat engine
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flat-head engine
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fluorine-hydrogen engine
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four-barrel engine
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four-cycle engine
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Gardner engine
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gas discharge ionizator electrostatic engine
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gas engine
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gas turbine engine
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gas-driven blowing engine
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gas blowing engine
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gasoline engine
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graphics engine
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heat engine
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heavy equipment diesel engine
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heavy-duty engine
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high bypass ratio engine
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high-compression engine
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high-efficiency engine
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high-I engine
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horizontal engine
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horizontally opposed engine
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Horning engine
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hump engine
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hybrid air-breathing engine
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hybrid-propellant engine
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hydrogen-fueled engine
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I-head engine
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impact volume ionization ion engine
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inboard engine
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indirect-injection engine
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individual cylinder head engine
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industrial application engine
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inference engine
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inlet over exhaust engine
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in-line engine
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ionic engine
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ion engine
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jet engine
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ladle-car engine
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laser air-jet engine
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laser-driven rocket engine
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laser-heated rocket engine
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laser-propulsion rocket engine
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Lauson engine
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L-head engine
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lift engine
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lift jet engine
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light duty diesel engine
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linear MPD engine
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liquid air cycle engine
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liquid petroleum gases engine
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liquid-propellant engine
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long-stroke engine
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low bypass ratio engine
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low-I engine
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LOX/HC engine
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LOX/LH engine
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magnetogasdynamic engine
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maneuvering engine
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marine application engine
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marine engine
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mercury ion engine
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mid-flight engine
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model diesel engine
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monkey engine
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motored engine
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multifuel engine
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nacelle-mounted engine
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naturally aspirated engine
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nonturbo engine
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oil engine
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oil-electric engine
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OMS engine
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one-shaft engine
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open-cylinder engine
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opposed-piston engine
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Otto engine
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outboard engine
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overhead valve engine
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oversquare engine
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pancake engine
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petrol engine
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Petter AV-I Diesel engine
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Petter W-1 engine
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photon engine
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piston ported engine
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plasmajet rocket engine
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plasma rocket engine
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podded engine
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pollution-free engine
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potassium ion engine
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prechamber engine
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propulsion engine
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pulping engine
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pulsejet engine
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pusher engine
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quench-car engine
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racing engine
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radial engine
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radiation-heated rocket engine
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radio-frequency ion engine
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ram engine
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ramjet engine
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Rankine engine
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RCS engine
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reciprocating solar engine
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rectenna-powered ion engine
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remanufactured engine
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restartable engine
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rotary engine
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rubidium ion engine
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separation engine
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shaft-turbine engine
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shunting engine
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single-shaft gas turbine engine
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six-cylinder in-line engine
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solar Brayton engine
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solar engine
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solar photon rocket engine
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solar-heated gas engine
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solar gas engine
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solar-powered engine
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spacer plate engine
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special arrangement engine
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square engine
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starting engine
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steam-driven blowing engine
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steam blowing engine
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steering engine
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Stirling engine
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stock engine
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subsonic engine
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supercharged engine
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surface ionization engine
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swirl-chamber diesel engine
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switch engine
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take-home engine
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tee engine
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test bed engine
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T-head engine
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thermal arc engine
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thermoelectronic engine
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three-flow turbojet engine
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towing engine
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trans-rear engine
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transverse engine
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traveling wave plasma engine
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trimmer engine
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tripropellant engine
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truck engine
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turbine engine
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turbine expansion engine
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turbocharged engine
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turbo engine
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turbofan engine
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turbojet engine
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turboprop engine
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turboshaft engine
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turbulence-chamber engine
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twin rotor engine
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two-rotor engine
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two-shaft gas turbine engine
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two-spool engine
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unblown engine
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undersquare engine
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variable compression engine
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variable cycle engine
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variable cylinder engine
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vehicular engine
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V-engine
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volume collision ionization engine
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Wankel engine
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warmed-up engine
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washing engine
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waste-heat recovery Stirling engine
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water-cooled engine
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windmilling engine
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wing engine
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W-type engine
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yard engine -
14 ratio
n1) співвідношення; пропорція2) коефіцієнт; ступінь•- air-fuel ratio - aspect ratio - best power mixture ratio - bypass ratio - California bearing ratio - carrier-to-noise-density ratio - compression ratio - engine pressure ratio - fineness ratio - fineness ratio of a streamlined body - fuel-weight ratio - high bypass ratio - international air ratio - lift/drag ratio - L/D ratio - nozzle area ratio - pitch-diameter ratio - power-to-weight ratio - power-weight ratio - pressure ratio - propeller solidity ratio - reference pressure ratio - serviceability ratio - signal-to-interference ratio - signal-to-noise ratio - thickness/chord ratio of an airfoil section - transformation ratio - uplift ratio - wing taper ratio -
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 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 -
17 engine
1. двигатель; мотор2. машина; процессор10х8 engineAda engineadvanced-cycle engineaero engineafterburning turbofan engineafterburning turbojet engineair-cooled engineaspirated engineaugmented engineauxiliary engineaxial-flow gas turbine enginebody-submerged engineburied enginebypass engineclean engineclean-burning enginecold enginecombat enginecombined-cycle enginecommercial enginecompression ignition enginecontrarotating propfan engineconvertible engineconvertible turboshaft/turbofan enginecore enginecruise enginedead enginediesel enginedouble-bypass enginedual-expander enginedummy engineenergy-efficient engineenvironmentally friendly engineexpendable engineFadec controlled enginefall-back enginefast-revving enginefighter enginefixed-cycle engineflat-four engineflight-qualified enginefly-by-wire enginefree turbine enginefuel-injected enginefuel-saving enginefull-throttle fly-by-wire enginefuselage-mounted enginegas turbine enginegeared enginegrowth engineheat exchanger enginehigh-airflow enginehigh-compression enginehigh-set enginehigh-thrust-to-weight enginehigh-time enginehydrocarbon-burning enginehydrogen-fueled enginehydromechanically controlled engineidling enginein-line engineincreased-thrust engineinoperative enginelarge-diameter enginelarger enginelift enginelift-cruise engineliquid-fueled enginelive enginelong-life enginelow-bypass enginelow-bypass ratio enginelow-smoke enginelow-thrust/weight-ratio enginelow-slung engineLO2/LH2 engineLOX/LH2 engineMach 25 enginemethane-fueled enginemixed enginemixed flow enginemultishaft enginemultiflow enginenongeared engineoperating engineopposed-cylinder enginepodded engineprototype enginepure turbojet enginepusher engineramjet enginerapid-spoolup enginerear-mounted enginereciprocating engineregenerative enginerocket enginerotary enginerunning enginescramjet engineseparate flow engineshoulder-mounted enginessingle-rotor rotary enginesix-cylinder enginesmart enginesolid-fueled enginespark ignition engineSST enginestratified-charge enginesubmerged enginesubsonic combustion enginesupercharged enginesupersonic combustion ramjet enginesupersonic fan enginetail-mounted enginetandem-fan enginetandem-mounted enginesthree flow enginethree-shaft enginetopside enginetractor enginetrimless engineturbine bypass engineturbocharged engineturbocompound engineturbofan engineturbojet engineturboprop engineturboramjet engineturboscramjet engineturboshaft enginetwo-shaft enginetwo-spool enginetwo-stroke engineUHB engineultra bypass engineultrahigh-bypass engineunducted fan engineunducted-type fan engineunmixed engineunsuppressed enginevariable cycle enginevariable stream control engineVATOL enginevectored enginewarmed-up engine -
18 diesel engine
дизельный двигатель
—
[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
diesel engine
An internal combustion engine operating on a thermodynamic cycle in which the ratio of compression of the air charge is sufficiently high to ignite the fuel subsequently injected into the combustion chamber. (Source: MGH)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]Тематики
EN
DE
FR
Англо-русский словарь нормативно-технической терминологии > diesel engine
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19 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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20 Priestman, William Dent
SUBJECT AREA: Steam and internal combustion engines[br]b. 23 August 1847 Sutton, Hull, Englandd. 7 September 1936 Hull, England[br]English oil engine pioneer.[br]William was the second son and one of eleven children of Samuel Priestman, who had moved to Hull after retiring as a corn miller in Kirkstall, Leeds, and who in retirement had become a director of the North Eastern Railway Company. The family were strict Quakers, so William was sent to the Quaker School in Bootham, York. He left school at the age of 17 to start an engineering apprenticeship at the Humber Iron Works, but this company failed so the apprenticeship was continued with the North Eastern Railway, Gateshead. In 1869 he joined the hydraulics department of Sir William Armstrong \& Company, Newcastle upon Tyne, but after a year there his father financed him in business at a small, run down works, the Holderness Foundry, Hull. He was soon joined by his brother, Samuel, their main business being the manufacture of dredging equipment (grabs), cranes and winches. In the late 1870s William became interested in internal combustion engines. He took a sublicence to manufacture petrol engines to the patents of Eugène Etève of Paris from the British licensees, Moll and Dando. These engines operated in a similar manner to the non-compression gas engines of Lenoir. Failure to make the two-stroke version of this engine work satisfactorily forced him to pay royalties to Crossley Bros, the British licensees of the Otto four-stroke patents.Fear of the dangers of petrol as a fuel, reflected by the associated very high insurance premiums, led William to experiment with the use of lamp oil as an engine fuel. His first of many patents was for a vaporizer. This was in 1885, well before Ackroyd Stuart. What distinguished the Priestman engine was the provision of an air pump which pressurized the fuel tank, outlets at the top and bottom of which led to a fuel atomizer injecting continuously into a vaporizing chamber heated by the exhaust gases. A spring-loaded inlet valve connected the chamber to the atmosphere, with the inlet valve proper between the chamber and the working cylinder being camoperated. A plug valve in the fuel line and a butterfly valve at the inlet to the chamber were operated, via a linkage, by the speed governor; this is believed to be the first use of this method of control. It was found that vaporization was only partly achieved, the higher fractions of the fuel condensing on the cylinder walls. A virtue was made of this as it provided vital lubrication. A starting system had to be provided, this comprising a lamp for preheating the vaporizing chamber and a hand pump for pressurizing the fuel tank.Engines of 2–10 hp (1.5–7.5 kW) were exhibited to the press in 1886; of these, a vertical engine was installed in a tram car and one of the horizontals in a motor dray. In 1888, engines were shown publicly at the Royal Agricultural Show, while in 1890 two-cylinder vertical marine engines were introduced in sizes from 2 to 10 hp (1.5–7.5 kW), and later double-acting ones up to some 60 hp (45 kW). First, clutch and gearbox reversing was used, but reversing propellers were fitted later (Priestman patent of 1892). In the same year a factory was established in Philadelphia, USA, where engines in the range 5–20 hp (3.7–15 kW) were made. Construction was radically different from that of the previous ones, the bosses of the twin flywheels acting as crank discs with the main bearings on the outside.On independent test in 1892, a Priestman engine achieved a full-load brake thermal efficiency of some 14 per cent, a very creditable figure for a compression ratio limited to under 3:1 by detonation problems. However, efficiency at low loads fell off seriously owing to the throttle governing, and the engines were heavy, complex and expensive compared with the competition.Decline in sales of dredging equipment and bad debts forced the firm into insolvency in 1895 and receivers took over. A new company was formed, the brothers being excluded. However, they were able to attend board meetings, but to exert no influence. Engine activities ceased in about 1904 after over 1,000 engines had been made. It is probable that the Quaker ethics of the brothers were out of place in a business that was becoming increasingly cut-throat. William spent the rest of his long life serving others.[br]Further ReadingC.Lyle Cummins, 1976, Internal Fire, Carnot Press.C.Lyle Cummins and J.D.Priestman, 1985, "William Dent Priestman, oil engine pioneer and inventor: his engine patents 1885–1901", Proceedings of the Institution ofMechanical Engineers 199:133.Anthony Harcombe, 1977, "Priestman's oil engine", Stationary Engine Magazine 42 (August).JBBiographical history of technology > Priestman, William Dent
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