-
1 impulse-type engine
Космонавтика: импульсный РДТТ -
2 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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3 импульсный РДТТ
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4 Laval, Carl Gustaf Patrik de
SUBJECT AREA: Agricultural and food technology, Electricity, Mechanical, pneumatic and hydraulic engineering, Steam and internal combustion engines[br]b. 9 May 1845 Orsa, Swedend. 2 February 1913 Stockholm, Sweden[br]Swedish inventor of an advanced cream separator and a steam turbine.[br]Gustaf de Laval was educated at the Stockholm Technical Institute and Uppsala University. He proved to have an unfailing vigour and variety in his inventive talent, for his interests ranged from electric lighting and electrometallurgy to aerodynamics. In the 1890s he employed over one hundred engineers to develop his inventions, but he was best known for two: the cream separator and a steam turbine. In 1877 he invented the high-speed centrifugal cream separator, which was probably the greatest advance in butter-making up to that time. By 1880 the separators were being successfully marketed all over the world, for they were quickly adopted in larger dairies where they effected enormous savings in labour and space. He followed this with various devices for the dairy industry, including a vacuum milking machine perfected in 1913. In c. 1882, de Laval invented a turbine on the principle of Hero's engine, but he quickly turned his attention to the impulse type, which was like Branca's, with a jet of steam impinging on a set of blades around the periphery of a wheel. He applied for a British patent in 1889. The steam was expanded in a single stage from the initial to the final pressure: to secure economy with the steam issuing at high velocity, the blades also had to rotate at high velocity. An early 5 hp (3.7 kW) turbine rotated at 30,000 rpm, so reduction gearing had to be introduced. Production started in Sweden in 1893 and in other countries at about the same time. In 1892 de Laval proposed employing one of his turbines of 15 hp (11 kW) in an experimental launch, but there is no evidence that it was ever actually installed in a vessel. However, his turbines were popular for powering electric generating sets for lighting textile mills and ships, and by 1900 were available in sizes up to 300 bhp (224 kW).[br]Bibliography1889, British patent no. 7,143 (steam turbine).Further ReadingT.Althin, 1943, Life of de Laval, Stockholm (a full biography).T.I.Williams (ed.), 1969, A Biographical Dictionary of Scientists, London: A. \& C. Black (contains a brief biography).R.M.Neilson, 1902, The Steam Turbine, London: Longmans, Green \& Co. (fully covers the development of de Laval's steam turbine).H.W.Dickinson, 1938, A Short History of the Steam Engine, Cambridge University Press (contains a short account of the development of the steam turbine).R.L.Hills, 1989, Power from Steam. A History of the Stationary Steam Engine, Cambridge University Press (contains a short account).RLHBiographical history of technology > Laval, Carl Gustaf Patrik de
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5 control
управление; регулирование; контроль; орган [рычаг] управления; руль; pl. система управления или регулирования; управлять; регулироватьback seat flight control — управление ЛА из задней кабины [с места заднего лётчика]; pl. дублирующие органы управления в задней кабине
be out of control — терять управление [управляемость]; выходить из-под управления [контроля]
continuously variable thrust control — плавное [бесступенчатое] регулирование тяги
control c.g. control — регулирование центровки (ЛА)
control of missile attitude — стабилизация ракеты; управление пространственным положением ракеты
control of the air — превосходство или господство в воздухе; превосходство в области авиации [в авиационной технике]; контроль воздушного пространства
control of the yoke — разг. управление штурвалом
control of thrust orientation — управление ориентированием [направлением вектора] тяги
flight deck lighting controls — органы управления [ручки регулировки] освещением кабины экипажа
fling the controls over — перебрасывать органы управления (в противоположную сторону),
flow control with altitude compensation — регулятор расхода [подачи] с высотным корректором
fuel dump valve control — кран [рычаг крана] аварийного слива топлива
gas jet attitude control — управление пространственным положением с помощью системы газоструйных рулей
go out of control — терять управление, выходить из-под управления [контроля]
ground rollout rudder steering control — управление пробегом [на пробеге] с помощью руля направления
interconnected fuel and propeller controls — объединённая система регулирования подачи топлива и шага винта
jet tab thrust vector control — управление вектором тяги с помощью газовых рулей; дефлекторное управление вектором тяги
jet(-deflection, -direction) control — реактивное [струйное] управление; управление изменением направления тяги; струйный руль
manual mixture shut-off control — рычаг отсечки подачи горючей смеси, рычаг останова [выключения] двигателя
maximum boundary layer control — управление пограничным слоем при наибольшей эффективности [производительности, интенсивности работы] системы
recover the control — восстанавливать управление [управляемость]
respond to the controls — реагировать [отвечать] на отклонение рулей [органов управления]
space shuttle orbiter control — управление орбитальной ступенью челночного воздушно-космического аппарата
throttle and collective pitch control — верт. рычаг «шаг — газ»
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6 test
1) испытание
2) испытательный
3) испытывать
4) опробование
5) проба
6) пробовать
7) тест
8) <engin.> опыт
9) пробный
10) проверять
11) критерий
12) признак
13) проверка
14) испытующий
15) эксперимент
16) тестовый
17) замер
18) проверочный
19) обнаружение
20) определение
21) исследовать
22) выверять
23) контрольный
– abbreviated test
– ability test
– abrasion test
– accelerated test
– acceptance test
– acid test
– ageing test
– arbitration test
– articulation test
– bench test
– bend test
– bend-over test
– bending test
– bending-unbending test
– best test
– biological test
– blank test
– blow-pipe test
– boiling test
– bond test
– breakdown test
– breaking test
– buckling test
– burning test
– busy test
– calibration test
– capillary test
– carry out a test
– centrifuge test
– chi-square test
– cohesion test
– cold test
– cold-pressing test
– collapsibility test
– color test
– coloring test
– combustibility test
– comparison test
– comprehensive test
– compression test
– consumption test
– continuity test
– corrosion test
– cracking test
– creep test
– critical test
– crushing test
– cupel test
– cupping test
– decantation test
– desctructive test
– destruction test
– destructive test
– development test
– do test
– drop test
– duplicate test
– durability test
– eddy-current test
– efficiency test
– elasticity test
– endurance test
– equal-tails test
– Erichsen test
– etch test
– evaporation test
– expansion test
– extraction test
– failure-rate test
– fat test
– fatigue test
– field test
– flammability test
– flange test
– flanging test
– flare test
– flash-point test
– flattening test
– flexure test
– flight test
– floating test
– flow test
– fluidity test
– flutter test
– fracing test
– fracture test
– free-bend test
– free-fall test
– free-flight test
– freezing test
– friability test
– friction test
– fuel-consumption test
– full-scale test
– fusion test
– game test
– goodness-of-fit test
– grindability test
– ground test
– hardenability test
– hardness test
– heat test
– hot twist test
– hot upset test
– humidity test
– hydrostatic test
– icing test
– immersion test
– impact test
– impulse test
– impulse-withstand test
– intelligence test
– jet test
– jumping-up test
– laboratory test
– leakage test
– life test
– liquid-penetrant test
– load test
– long-run test
– longevity test
– macrosolubility test
– magnetic-particle test
– material test
– medial test
– melting test
– microharness test
– microsolubility test
– model test
– no-load test
– non-destructive test
– notch-bar test
– oil dilution test
– oscillation test
– overload test
– overspeed test
– oxidation test
– paint rub test
– panel-spalling test
– pass a test
– pass the test
– peel test
– perfomance test
– performance test
– pickle test
– preliminary test
– pressure test
– primary test
– pull test
– quench test
– quick test
– random test
– referee test
– regression test
– relaxation test
– reliability test
– remolding test
– reverse-bend test
– ringing test
– road test
– root test
– routine test
– run test cut
– salt-mist test
– scratch-hardness test
– screen test
– sedimentation test
– shatter test
– shearing test
– short-term test
– shrinkage test
– sign test
– significance test
– single-end test
– site test
– skein test
– slaking test
– solubility test
– spark test
– splitting test
– spoon test
– spray test
– stopping test
– strength test
– stress test
– stress-rupture test
– subjective test
– survival test
– tackiness test
– tear test
– tensile test
– test baking
– test bank
– test borehole
– test card
– test case
– test certificate
– test chart
– test condition
– test connector
– test current
– test desk
– test device
– test diagram
– test electrolyte
– test equipment
– test facility
– test flight
– test for
– test for convergence
– test for defects
– test for end
– test for leak-proofness
– test for minimum
– test function
– test hypothesis
– test input
– test jack
– test key
– test lead
– test load
– test metal
– test mine
– test mock-up
– test model
– test needle
– test of convergence
– test of homogeneity
– test of hypothesis
– test of location
– test of normality
– test of whether
– test oscillator
– test paper
– test particle
– test pattern
– test piece
– test pilot
– test pole
– test pressure
– test pulse
– test reaction
– test relay
– test report
– test rig
– test rod
– test run
– test set
– test set-up
– test shot
– test specimen
– test stand
– test station
– test technique
– test terminal
– test to failure
– test tree
– test unit
– test voltage
– test weld
– thermal test
– torsion test
– total-lot test
– toughness test
– towing test
– type test
– ultraviolet test
– unbiased test
– upsetting test
– vacuum test
– vibration-survival test
– voltage test
– Votchal-Tiffeneau test
– warranty test
– wear test
– weld test
– weldability test
Abel test for convergence — <math.> признак сходимости Абеля
distribution-free test of fit — непараметрический критерий согласия
international test conference — международная конференция по методам и средствам испытаний
most powerful test — <math.> критерий наиболее мощный
notched test bar — <metal.> образец надрезанный
pulse-reflection ultrasonic test — ультразвуковая дефектоскопия эхом
standard test solution — <energ.> раствор модельный
test compression factor — <comput.> коэффициент сжатия тестов
test for uniform convergence — признак равномерной сходимости
test statistical hypothesis — проверять статистическую гипотезу
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7 turbine
1) турбина
2) турбинный
– ahead turbine
– astern turbine
– axial-flow turbine
– back-pressure turbine
– bleeder turbine
– condensing turbine
– extraction turbine
– extraction turbine
– Francis turbine
– gas turbine
– gas turbine jet engine
– gate-blade turbine
– high-pressure end of turbine
– high-pressure turbine
– house turbine
– impulse turbine
– impulse-reaction turbine
– Kaplan turbine
– marine turbine
– million-kilowatt turbine
– multi-cylinder turbine
– multi-stage turbine
– Pelton turbine
– radial-flow turbine
– reaction turbine
– steam turbine
– throttling turbine
– topping turbine
– turbine blower
– turbine casing
– turbine condensate
– turbine disk
– turbine flowmeter
– turbine oil
– turbine plant
– turbine room
– turbine runner
– turbine scutcher
– turbine setting
– turbine spindle
– turbine starter
– turbine wheel
– two-stage gas turbine
– water turbine
– wind turbine
adjustable-blade Francis turbine — диагональная гидротурбина
gas and steam turbine installation — <engin.> установка турбинная газо-паровая
parallel-flow reaction turbine — осевая реактивная гидротурбина
propeller-type wheel turbine — <engin.> пропеллерная турбина
wind turbine electro-generator — ветровой электрический агрегат
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8 турбина
turbine
лопаточная машина, в которой энергия потока газа, протекающего через направляющий (сопловой) аппарат и рабочие лопатки ротора, преобразуется в механическую paботу на валу машины (рис.46). — а multibladed wheel or rotor of а gas-turbine engine, rotated by the impulse from or reaction to the gas passing across the blades. consists principally of one or more turbine wheels and a stator.
-, активная (газовая) — impulse turbine
-,бортовая вспомогательная (всу) — auxiliary pover unit(apu)
-, вторая (низкого давления в двухроторном гтд) — low pressure turbine, lp turbine
- (каскада) высокого давления — high-pressure turbine, hp turbine
турбина высокого давления спужит для привода компрессора высокого давления. — the high-pressure (hp) turbine drives the high-pressure (hp) compressor (rotor).
- газогенератора — gas-generator /-producer/ turbine
-, двухступенчатая — two-stage turbine
- компрессора (двигателя со свободной турбиной) — compressor turbine
-, многоступенчатая — multistage turbine
турбина с несколькими последовательно расположеннымн ступенями. — а turbine consisting of several stages.
- (привода) несущего винта (свободная или силовая турбина) — free (power) turbine
- (каскада) низкого давления — low-pressure turbine, lp turbine
для привода компрессора нд. — lp turbine drives lp cornpressor.
-, одноступенчатая — single-stage turbine
турбина с одним рабочим колесом и одним сопловым аппаратом. — а turbine having one set of stater blades followed by а set of rotor blades.
-, осевая — axial-flow turbine
турбина, в которой поток газа движется в направлении параллельном оси турбины. — а turbine through which the general direction of flow is axial.
-, первая (высокого давления в двухроторном гтд) — high pressure turbine, hp turbine
- привода постоянных оборотов (ппо) — constant speed drive turbine
-, промежуточная (промежуточного каскада между турбинами вд и нд) — intermediate pressure turbine
-, противоточная — reverse-fiow turbine
-, работающая на выхлопных газах (для пд) — power recovery turbine
турбина, вращающаяся выхлопными газами и кинематически связанная с коленвалом. — for reciprocating engines only. the ttirbina which ехtracts energy from the ехhatist gases arid as coupled to the crankshaft
-, реактивная — reaction turbine
турбина, в которой расширение газа происходит не только в сопловом аппарате, но и в рабочем колесе. — а type of turbine having rotor blades shaped so that they form а ring of nozzles, the turbine being rotated by the rgaetiorl of the fluid ejected from between the blades.
-, свободная (рис.46) — free turbine
-, свободная силовая — free powar turbine
-, силовая (свободная), с npотивоположным вращением рабочих колес — contra-rotating power turbine
- с приводом от набегающегo потока — ram air iurbine (rat) extend rat to pressursze hydraulic aystem.
"- (с приводом от набегающего потока) включена (работает)" (табло) — rat deployed
- стартера — starter turbine
- трехкаскадная (с приводом от трех валов) — triple-shaft turbine this turbine consists of а hp turbine, intermediate pressure turbine and lp turbine.
-, утилизирующая (выхлопные газы пд) — power recovery turbine
·-, центробежная — radial-flow turbine
турбина, в которой газ движется в направлении перпендикулярном к оси турбины, — а turbine through which the general direction of flow being radial.
-, четырехступенчатая давление (газов) за т. (p4) давление перед т. (рз) за т. — four-stage turbine turbine exhaust pressure (p,4) turbine inlet pressure (рз) past turbine, at turbine outlet
maximum allowable gas temperature past turbine.
перед т. температура выходящих газов за т. — before turbine, at turbine inlet turbine gas temperature (tgt)Русско-английский сборник авиационно-технических терминов > турбина
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