(wing+design)

часть

1) half

2) member
3) part
4) piece
5) portion
6) quantum
7) quota
8) segment
9) share
– большая часть
– быстроизнашиваемые часть
– весовая часть
– взаимозаменяемые часть
– внутренняя часть
– воздушная часть
– восьмая часть
– восьмидесятая часть
– выступающая часть
– двадцатая часть
– двенадцатая часть
– девяносая часть
– девятая часть
– девятнадцатая часть
– десятая часть
– железная часть
– задняя часть
– зарамочная часть
– испарительная часть
– кормовая часть
– неотъемлемая часть
– нераздельная часть
– нерастворимая часть
– несущая часть
– носовая часть
– общая часть
– одиннацатая часть
– опорная часть
– отделочная часть
– первичная часть
– передняя часть
– подвижная часть
– проточная часть
– пятидесятая часть
– пятнадцатая часть
– разрозненные часть
– сменная часть
– соединительная часть
– сопловая часть
– сороковая часть
– составная часть
– сотая часть
– тысячная часть
– хвостовая часть
– ходовая часть
– часть аликвантная
– часть аликвотная
– часть декады
– часть закладная
– часть зональная
– часть проточная
– часть тела
– часть уравнения
– часть ходовая
– часть числа
– четырнадцатая часть

адресная часть команды — address part of instruction

беговая часть шины — tread section of tire

бортовая часть шины — bead section of tire

восточная зарамочная часть — right-hand edge of map sheet

восьмая часть круга — octant

вышерасположенная часть потока — upstream flow

дробная часть числа — fractional part of number

задняя часть фюзеляжа — rear fuselage

западная зарамочная часть — left-hand edge of map sheet

запятая отделяющая целую часть числа от дробной — separatrix

изолированная часть множества — adherence

консольная часть крыла — outboard wing

корневая часть крыла — wing root

лобовая часть обмотки — coil end

минеральная часть топлива — mineral matter of fuel

мнимая часть адмитанса — susceptance

мнимая часть накапливающего счетчика — imaginary accumulator

модифицируемая часть команды — indexing part of instruction

нижерасположенная часть потока — downstream flow

носовая часть фюзеляжа — forward fuselage

оживальная часть крыла — ogive

отделяющая целую часть числа от дробной — radix point

отъемная часть крыла — detachable part

передняя часть крыла — leading edge assembly

перенесение в другую часть уравнения — transposition

плечевая часть шины — shoulder section of tire

пополнять запасные часть — replenish spares

проезжая часть дороги — roadway

строительная часть проект — civil-engineering design

технологическая часть проекта — engineering design

хвостовая часть крыла — trailing edge assembly

хвостовая часть поезда — tail piece of train

целая часть числа — integral part of number

цифровая часть числа — mantissa

часть высокого давления — high-pressure section

часть общей шинной структуры — pathway

часть среднего давления — intermediate-pressure section

шестая часть круга — sextant

экипажная часть локомотива — locomotive underframe

edificio

m.

building.

edificio inteligente intelligent building

* * *

edificio

► nombre masculino

1 building

* * *

noun m.

building

* * *

SM

1) (Arquit) building, edifice frm

edificio de apartamentos — block of flats, apartment building o house (EEUU)

edificio de oficinas — office block

edificio inteligente — smart building, intelligent building

2) [moral] edification

* * *

masculino building

* * *

= building, edifice.

Ex. Some libraries find that it is difficult to convey all the necessary information in a simple manner, merely because the collection is large, or housed in various separate buildings and wings, and the shelving sequence is complex.

Ex. This paper highlights problems with a virtual approach, emphasising the need for libraries to both an edifice and an interface.

----

* ala de edificio = wing.

* almacenar en un edificio anexo = outhouse.

* biblioteca como edificio = library building.

* caparazón del edificio = building shell.

* construcción de edificios = building construction.

* construir un edificio = construct + building.

* con varios edificios = multi-site [multisite].

* desprendimientos de edificios = falling debris.

* diseño de edificios = building design.

* edificio alto = high-rise building.

* edificio anexo = outbuilding.

* edificio central = main site.

* edificio civil = civic building.

* edificio comercial = commercial building.

* edificio construido según un plan cúbico = deep building.

* edificio de apartamentos = apartment building, apartment complex.

* edificio de oficinas = office building, office block.

* edificio de pisos = condominium building.

* edificio de valor histórico = heritage-listed building.

* edificio en forma de cubo = cubic building.

* edificio histórico = historic building, historical building.

* edificio lineal = linear building.

* edificio municipal = municipal building.

* edificio protegido = listed building, heritage building, heritage-listed building.

* edificio público = municipal building, public building.

* edificios = bricks and mortar.

* enseñar un edificio a Alguien = show + Nombre + round.

* en todo el edificio = site-wide.

* estructura del edificio = building shell.

* evacuar un edificio = clear + building.

* horizonte dibujado por los edificios = skyline.

* horizonte dibujado por un edificio = roofline.

* método de evaluación de un edificio en uso = post-occupancy evaluation method.

* temperatura ambiental del edificio = room temperature.

* * *

masculino building

* * *

= building, edifice.

Ex: Some libraries find that it is difficult to convey all the necessary information in a simple manner, merely because the collection is large, or housed in various separate buildings and wings, and the shelving sequence is complex.

Ex: This paper highlights problems with a virtual approach, emphasising the need for libraries to both an edifice and an interface.

* ala de edificio = wing.

* almacenar en un edificio anexo = outhouse.

* biblioteca como edificio = library building.

* caparazón del edificio = building shell.

* construcción de edificios = building construction.

* construir un edificio = construct + building.

* con varios edificios = multi-site [multisite].

* desprendimientos de edificios = falling debris.

* diseño de edificios = building design.

* edificio alto = high-rise building.

* edificio anexo = outbuilding.

* edificio central = main site.

* edificio civil = civic building.

* edificio comercial = commercial building.

* edificio construido según un plan cúbico = deep building.

* edificio de apartamentos = apartment building, apartment complex.

* edificio de oficinas = office building, office block.

* edificio de pisos = condominium building.

* edificio de valor histórico = heritage-listed building.

* edificio en forma de cubo = cubic building.

* edificio histórico = historic building, historical building.

* edificio lineal = linear building.

* edificio municipal = municipal building.

* edificio protegido = listed building, heritage building, heritage-listed building.

* edificio público = municipal building, public building.

* edificios = bricks and mortar.

* enseñar un edificio a Alguien = show + Nombre + round.

* en todo el edificio = site-wide.

* estructura del edificio = building shell.

* evacuar un edificio = clear + building.

* horizonte dibujado por los edificios = skyline.

* horizonte dibujado por un edificio = roofline.

* método de evaluación de un edificio en uso = post-occupancy evaluation method.

* temperatura ambiental del edificio = room temperature.

* * *

edificio

masculine

building

* * *

 

edificio sustantivo masculino
building
edificio sustantivo masculino building
' edificio' also found in these entries:
Spanish:
abajo
- alta
- alto
- ampliar
- archivo
- ayuntamiento
- baja
- bajo
- bloque
- cacicada
- casa
- cimentar
- conserje
- construcción
- correo
- cuerpo
- dentro
- derribar
- derrumbamiento
- desalojar
- deterioro
- echar
- efectuarse
- estructura
- extensión
- frontal
- habilitar
- inclinación
- pabellón
- piso
- plana
- plano
- planta
- portera
- portería
- portero
- proyectar
- puerta
- reconstruir
- reforma
- reformar
- rehabilitar
- rehabilitación
- remate
- renovar
- renovación
- repartir
- replantear
- restaurar
- ruinosa
English:
accommodate
- acoustic
- adjacent
- alteration
- annexe
- as
- backroom
- block
- blow up
- bright
- build on
- building
- bulldoze
- burn
- burning
- cast
- centre
- clear
- clearance
- collapse
- come down
- commit
- complete
- decay
- demolish
- derelict
- dilapidated
- doorman
- drainage
- dynamite
- emphasize
- erection
- exit
- exposure
- face
- fall down
- fire
- fitting
- fixture
- floor
- frame
- go up
- grand
- guard
- gym
- high
- high-rise
- honeycomb
- intentionally
- knock down

* * *

edificio nm

building;

un edificio de oficinas an office building

Comp

edificio inteligente intelligent o smart building

* * *

edificio

m building

* * *

edificio nm

: building, edifice

* * *

edificio n building

improvisar

v.

to improvise (discurso, plan).

improvisar una cama to make (up) a makeshift bed

* * *

improvisar

► verbo transitivo

1 to improvise

► verbo intransitivo

1 to improvise

* * *

VT [+ discurso] to improvise; [+ comida] to rustle up *; [+ música] to extemporize; [+ representación] to ad-lib

* * *

1.

verbo transitivo to improvise

improvisaron una fiesta con lo que tenían en casa — they got up a party with what they had in the house

improvisar una comida — to rustle up a meal

2.

improvisar vi actor to improvise, ad-lib, extemporize (frml); músico to improvise, extemporize (frml)

* * *

= improvise, throw together, play + Nombre + by ear, wing it, rustle up, cobble together, fly by + the seat of + Posesivo + pants.

Ex. We must plan as best we can for known events while contriving to improvise when, as often happens, such stirring distractions occur unannounced.

Ex. A quality design cannot be thrown together on short notice.

Ex. The main problem lay in deciding which subjects were to be treated in which way, and staff played things by ear.

Ex. ' Winging it' becomes necessary when something unexpected comes up and the teacher has to improvise at the last minute.

Ex. Why grub has to be ' rustled up' is anyone's guess; that is just the way it was on the Wild West.

Ex. By cobbling together these essays without any attempt to integrate them, Mills reveals a disregard for his audience.

Ex. One of the persistent arguments about Mr. Gorbachev is whether he ever had a clear strategic vision, or was flying by the seat of his pants.

----

* improvisar Algo sobre la marcha = play + Nombre + by ear.

* * *

1.

verbo transitivo to improvise

improvisaron una fiesta con lo que tenían en casa — they got up a party with what they had in the house

improvisar una comida — to rustle up a meal

2.

improvisar vi actor to improvise, ad-lib, extemporize (frml); músico to improvise, extemporize (frml)

* * *

= improvise, throw together, play + Nombre + by ear, wing it, rustle up, cobble together, fly by + the seat of + Posesivo + pants.

Ex: We must plan as best we can for known events while contriving to improvise when, as often happens, such stirring distractions occur unannounced.

Ex: A quality design cannot be thrown together on short notice.

Ex: The main problem lay in deciding which subjects were to be treated in which way, and staff played things by ear.

Ex: ' Winging it' becomes necessary when something unexpected comes up and the teacher has to improvise at the last minute.

Ex: Why grub has to be ' rustled up' is anyone's guess; that is just the way it was on the Wild West.

Ex: By cobbling together these essays without any attempt to integrate them, Mills reveals a disregard for his audience.

Ex: One of the persistent arguments about Mr. Gorbachev is whether he ever had a clear strategic vision, or was flying by the seat of his pants.

* improvisar Algo sobre la marcha = play + Nombre + by ear.

* * *

improvisar [A1 ]

vt

1 ‹lección/discurso/versos› to improvise

2 (preparar con pocos recursos) ‹cama/cortina› to improvise

improvisaron una fiesta con lo que tenían en casa they had an impromptu party o ( colloq) they got up a party with what they had in the house

con cuatro latas improvisamos una cena estupenda we rustled up a great meal from a few cans

no podemos improvisar un director gerente de un día para otro we can't conjure up a managing director overnight

■ improvisar

vi

«actor» to improvise, ad-lib, extemporize ( frml); «músico» to improvise, extemporize

* * *

improvisar ( conjugate improvisar) verbo transitivo
to improvise;

◊ improvisar una comida to rustle up a meal

verbo intransitivo [actor/músico] to improvise
improvisar verbo transitivo to improvise
Mús to extemporize

' improvisar' also found in these entries:
English:
ad-lib
- cobble together
- ear
- improvise
- rig up
- jam
- knock
- put
- throw
- whip

* * *

improvisar

♦ vt

[discurso, plan, actuación artística] to improvise; [comida] to rustle up, to improvise;

improvisar una cama to make (up) a makeshift bed;

improvisaron un campamento para albergar a los refugiados a makeshift camp was set up to provide shelter for the refugees

♦ vi

[músico, orador, actor] to improvise; [al olvidar el diálogo] to ad-lib

* * *

improvisar

v/t improvise

* * *

improvisar v

: to improvise, to ad-lib

* * *

improvisar vb to improvise

loading

погрузка; загрузка; заряжание, зарядка; заправка ( топливом) ; монтаж, установка; удельная нагрузка ( на единицу площади) ; нагружение (силами, моментами)

asymmetric loading of pylons — асимметричная загрузка пилонов

loading in the hover — нагрузка на висении

prelaunch loading of slush hydrogen — предстартовая загрузка шугообразного водорода

— aileron loading

— airplane loading

— asymmetric loading

— axisymmetric loading

— baggage loading

— blade loading

— blast loading

— bulk loading

— cargo sling loading

— cartridge-type loading

— centrifugal loading

— chordwise loading

— clean loading

— combined loading

— complex loading

— containerized loading

— cyclic loading

— decelerative loading

— design gear loading

— design loading

— double-end loading

— double-propellant loading

— dynamic loading

— elliptic loading

— end loading

— equivalent single-wheel loading

— external loading

— fatigue loading

— flight-simulation loading

— freight loading

— fuel loading

— g loading

— gear loading

— grain loading

— ground loading

— inertia loading

— interference loading

— launcher loading

— lg loading

— lift loading

— lorry-level loading

— multiaxlal loading

— multiple static loading

— narrow-band loading

— normal loading

— nose loading

— passenger loading

— pavement loading

— pivot loading

— power loading

— practical loading

— pressure loading

— program loading

— propellant loading

— propeller loading

— pull-out loading

— ramp loading

— rear loading

— repeated loading

— rocket silo loading

— safe loading

— separate loading

— shear loading

— short-time loading

— sinusoidal loading

— spanwise loading

— stage loading

— step loading

— stores loading

— straight-in freight loading

— stretcher loading

— swing-tail rear loading

— symmetric loading

— take-off wing loading

— thermal cycle loading

— thermal loading

— thrust loading

— transient loading

— transverse loading

— uniform loading

— unrestricted loading

— unsteady aerodynamic loading

— variable-amplitude loading

— vertical surface loading

— weapon loading

— wing loading

Cayley, Sir George

SUBJECT AREA: Aerospace

[br]

b. 27 December 1773 Scarborough, England

d. 15 December 1857 Brompton Hall, Yorkshire, England

[br]

English pioneer who laid down the basic principles of the aeroplane in 1799 and built a manned glider in 1853.

[br]

Cayley was born into a well-to-do Yorkshire family living at Brompton Hall. He was encouraged to study mathematics, navigation and mechanics, particularly by his mother. In 1792 he succeeded to the baronetcy and took over the daunting task of revitalizing the run-down family estate.

The first aeronautical device made by Cayley was a copy of the toy helicopter invented by the Frenchmen Launoy and Bienvenu in 1784. Cayley's version, made in 1796, convinced him that a machine could "rise in the air by mechanical means", as he later wrote. He studied the aerodynamics of flight and broke away from the unsuccessful ornithopters of his predecessors. In 1799 he scratched two sketches on a silver disc: one side of the disc showed the aerodynamic force on a wing resolved into lift and drag, and on the other side he illustrated his idea for a fixed-wing aeroplane; this disc is preserved in the Science Museum in London. In 1804 he tested a small wing on the end of a whirling arm to measure its lifting power. This led to the world's first model glider, which consisted of a simple kite (the wing) mounted on a pole with an adjustable cruciform tail. A full-size glider followed in 1809 and this flew successfully unmanned. By 1809 Cayley had also investigated the lifting properties of cambered wings and produced a low-drag aerofoil section. His aim was to produce a powered aeroplane, but no suitable engines were available. Steam-engines were too heavy, but he experimented with a gunpowder motor and invented the hot-air engine in 1807. He published details of some of his aeronautical researches in 1809–10 and in 1816 he wrote a paper on airships. Then for a period of some twenty-five years he was so busy with other activities that he largely neglected his aeronautical researches. It was not until 1843, at the age of 70, that he really had time to pursue his quest for flight. The Mechanics' Magazine of 8 April 1843 published drawings of "Sir George Cayley's Aerial Carriage", which consisted of a helicopter design with four circular lifting rotors—which could be adjusted to become wings—and two pusher propellers. In 1849 he built a full-size triplane glider which lifted a boy off the ground for a brief hop. Then in 1852 he proposed a monoplane glider which could be launched from a balloon. Late in 1853 Cayley built his "new flyer", another monoplane glider, which carried his coachman as a reluctant passenger across a dale at Brompton, Cayley became involved in public affairs and was MP for Scarborough in 1832. He also took a leading part in local scientific activities and was co-founder of the British Association for the Advancement of Science in 1831 and of the Regent Street Polytechnic Institution in 1838.

[br]

Bibliography

Cayley wrote a number of articles and papers, the most significant being "On aerial navigation", Nicholson's Journal of Natural Philosophy (November 1809—March 1810) (published in three numbers); and two further papers with the same title in Philosophical Magazine (1816 and 1817) (both describe semi-rigid airships).

Further Reading

L.Pritchard, 1961, Sir George Cayley, London (the standard work on the life of Cayley).

C.H.Gibbs-Smith, 1962, Sir George Cayley's Aeronautics 1796–1855, London (covers his aeronautical achievements in more detail).

—1974, "Sir George Cayley, father of aerial navigation (1773–1857)", Aeronautical Journal (Royal Aeronautical Society) (April) (an updating paper).

JDS

площадь

крыло с изменяемой площадью

variable-area wing

нагрузка на единицу площади

load per unit area

площадь крыла

wing area

площадь крыла, включая подфюзеляжную часть

gross wing area

площадь маневрирования

manoeuvring area, maneuvering area

площадь, ометаемая воздушным винтом

propeller disk area

площадь сопротивления

drag area

привокзальная площадь аэропорта

airport land side

расчетная площадь крыла

design wing area

device

n

1) прилад; пристрій

2) механізм, апарат

3) обладнання

◊

devices identical in design — конструктивні аналоги

devices similar in operation — функціональні аналоги

•

- acoustic alarm device

- active docking device - actuating device - add-in device - aircrafts anticollision device - alarm device - analog device - antiicing device - antiretraction device - antiskid device - antitopple device - arresting device - audio warning device - aural warning device - automatic course device - automatic signalling device - braking device - braking test device - cabin tightness testing device - caging device - caging device of gyroscope - cargo-handling device - cargo-loading device - cargo tie-down device - cargo-weighting device - cartridge actuated device - centering device - centering cam device - chart-matching device - circuit protection device - closure device - coding device - continuous measuring device - current devices - deicing device - detonating device - dispersion device - display device - dust protection device - eavesdropping device - electronic device - electronic storage device - engine lifting device - exchange device - explosives detecting device - fastening device - fdling device - floatation device - friction test device - gaging device - hand-held device - high lift devices - high lift wing devices - high voltage devices - hoisting device - homing device - igniting device - infra-red detection devices - insertion device - intrusion detection device - lift devices - lift dump device - lift increasing device - listening device - loading device - load transfer device - locking device - lockout device - measuring device - metering device - mooring device - navigation device - noise abatement device - noise suppression device - peripheral device - recording device - remote alarm device - safety device - safety relief device - self-centering device - self-recording device - sensing device - signalling device - solid-state device - stabilizer servicing device - stall warning device - switching device - system leakage device - termination device - through device - thrust producting device - timber-carrying suspending device - tire inflation device - tow device - tripping device - underfrequency protection device - unit load device - visual warning device - warning device - water depth measuring device - weapon detecting device - weighting device - wheel installation device - wing devices - wing extendable devices - wing high-lift devices

Messerschmitt, Willi E.

SUBJECT AREA: Aerospace

[br]

b. 26 June 1898 Frankfurt-am-Main, Germany

d. 17 September 1978 Munich, Germany

[br]

German aircraft designer noted for successful fighters such as the Bf 109, one of the world's most widely produced aircraft.

[br]

Messerschmitt studied engineering at the Munich Institute of Tchnology and obtained his degree in 1923. By 1926 he was Chief Designer at the Bayerische Flugzeugwerke in Augsburg. Due to the ban on military aircraft in Germany following the First World War, his early designs included gliders, light aircraft, and a series of high-wing airliners. He began to make a major impact on German aircraft design once Hitler came to power and threw off the shackles of the Treaty of Versailles, which so restricted Germany's armed forces. In 1932 he bought out the now-bankrupt Bayerische Flugzeugwerke, but initially, because of enmity between himself and the German aviation minister, was not invited to compete for an air force contract for a single-engined fighter. However, in 1934 Messerschmitt designed the Bf 108 Taifun, a small civil aircraft with a fighter-like appearance. This displayed the quality of his design and the German air ministry was forced to recognize him. As a result, he unveiled the famous Bf 109 fighter which first flew in August 1935; it was used during the Spanish Civil War in 1936–9, and was to become one of the foremost combat aircraft of the Second World War. In 1938, after several name changes, the company became Messerschmitt Aktien-Gesellschaft (and hence a change of prefix from Bf to Me). During April 1939 a Messerschmitt aircraft broke the world air-speed record at 755.14 km/h (469.32 mph): it was entered in the FAI records as a Bf 109R, but was more accurately a new design designated Me 209V-1.

During the Second World War, the 5/70P was progressively improved, and eventually almost 35,000 were built. Other successful fighters followed, such as the twin-engined Me 110 which also served as a bomber and night fighter. The Messerschmitt Me 262 twin-engined jet fighter, the first jet aircraft in the world to enter service, flew during the early years of the war, but it was never given a high priority by the High Command and only a small number were in service when the war ended. Another revolutionary Messerschmitt AG design was the Me 163 Komet, the concept of Professor Alexander Lippisch who had joined Messerschmitt's company in 1939; this was the first rocket-propelled fighter to enter service. It was a small tailless design capable of 880 km/hr (550 mph), but its duration under power was only about 10 minutes and it was very dangerous to fly. From late 1944 onwards it was used to intercept the United States Air Force bombers during their daylight raids. At the other end of the scale, Messerschmitt produced the Me 321 Gigant, a huge transport glider which was towed behind a flight of three Me 110s. Later it was equipped with six engines, but it was an easy target for allied fighters. This was a costly white elephant, as was his high-speed twin-engined Me 210 fighter-bomber project which nearly made his company bankrupt. Nevertheless, he was certainly an innovator and was much admired by Hitler, who declared that he had "the skull of a genius", because of the Me 163 Komet rocket-powered fighter and the Me 262.

At the end of the war Messerschmitt was detained by the Americans for two years. In 1952 Messerschmitt became an aviation adviser to the Spanish government, and his Bf109 was produced in Spain as the Hispano Buchon for a number of years and was powered by Rolls-Royce Merlin engines. A factory was also constructed in Egypt to produce aircraft to Messerschmitt's designs. His German company, banned from building aircraft, produced prefabricated houses, sewing machines and, from 1953 to 1962, a series of bubble-cars: the KR 175 (1953–55) and the KR 200 (1955–62) were single-cylinder three-wheeled bubble-cars, and the Tiger (1958–62) was a twin-cylinder, 500cc four-wheeler. In 1958 Messerschmitt resumed aircraft construction in Germany and later became the Honorary Chairman of the merged Messerschmitt-Bölkow-Blohm company (now part of the Franco-German Eurocopter company).

[br]

Further Reading

van Ishoven, 1975, Messerschmitt. Aircraft Designer, London. J.Richard Smith, 1971, Messerschmitt. An Air-craft Album, London.

Anthony Pritchard, 1975, Messerschmitt, London (describes Messerschmitt aircraft).

JDS / CM

Wallis, Sir Barnes Neville

SUBJECT AREA: Aerospace, Weapons and armour

[br]

b. 26 September 1887 Ripley, Derbyshire, England

d. 30 October 1979 Leatherhead, Surrey, England

[br]

English aeronautical designer and inventor.

[br]

Wallis was apprenticed first at Thames Engineering Works, and then, in 1908, at John Samuel White's shipyard at Cowes. In 1913, the Government, spurred on by the accelerating development of the German Zeppelins (see Zeppelin, Ferdinand von), ordered an airship from Vickers; Wallis was invited to join the design team. Thus began his long association with aeronautical design and with Vickers. This airship, and the R80 that followed it, were successfully completed, but the military lost interest in them.

In 1924 the Government initiated a programme for the construction of two airships to settle once and for all their viability for long-dis-tance air travel. The R101 was designed by a Government-sponsored team, but the R100 was designed by Wallis working for a subsidiary of Vickers. The R100 took off on 29 July 1930 for a successful round trip to Canada, but the R101 crashed on its first flight on 4 October, killing many of its distinguished passengers. The shock of this disaster brought airship development in Britain to an abrupt end and forced Wallis to direct his attention to aircraft.

In aircraft design, Wallis is known for his use of geodesic construction, which combined lightness with strength. It was applied first to the single-engined "Wellesley" and then the twin-en-gined "Wellington" bomber, which first flew in 1936. With successive modifications, it became the workhorse of RAF Bomber Command during the Second World War until the autumn of 1943, when it was replaced by four-engined machines. In other areas, it remained in service until the end of the war and, in all, no fewer than 11,461 were built.

Wallis is best known for his work on bomb design, first the bouncing bomb that was used to breach the Möhne and Eder dams in the Ruhr district of Germany in 1943, an exploit immortalized in the film Dambusters. Encouraged by this success, the authorities then allowed Wallis to realize an idea he had long urged, that of heavy, penetration bombs. In the closing stages of the war, Tallboy, of 12,000 lb (5,400 kg), and the 10-ton Grand Slam were used to devastating effect.

After the Second World War, Wallis returned to aeronautical design and was given his own department at Vickers to promote his ideas, principally on variable-geometry or swing-wing aircraft. Over the next thirteen years he battled towards the prototype stage of this revolutionary concept. That never came, however; changing conditions and requirements and increasing costs led to the abandonment of the project. Bit-terly disappointed, Wallis continued his researches into high-speed aircraft until his retirement from Vickers (by then the British Aircraft Corporation), in 1971.

[br]

Principal Honours and Distinctions

Knighted 1968. FRS 1945.

Further Reading

J.Morpurgo, 1972, Barnes Wallis: A Biography, London: Longman (a readable account, rather biased in Wallis's favour).

C.J.Heap, 1987, The Papers of Sir Barnes Wallis (1887–1979) in the Science Museum Library, London: Science Museum; with a biographical introd. by L.R.Day.

LRD

конструкция

1. construct

машина простой конструкции — a machine simply constructed

2. make

3. phrase

имення конструкция — noun phrase

именная конструкция — noun phrase

4. structure

конструкция крыла — wing structure

конструкция корабля — ship structure

конструкция корпуса — hull structure

конструкция пилона — pylon structure

блочная конструкция — block structure

5. construction

моноблочная конструкция — integral construction

абсолютная конструкция — nominative construction

долговечная конструкция — long-life construction

композитная конструкция — composite construction

многослойная конструкция — sandwich construction

6. design; construction

предусматривать в конструкции — designed into

временная конструкция — temporary construction

конструкция воздушного судна — aircraft design

ограничение на конструкцию — design constraint

отказ из-за конструкции — design error failure

7. build

Синонимический ряд:

устройство (сущ.) устройство

конструкция

конструкция сущ

1. construction

2. design 3. structure деформация конструкции

structural distortion

деформация конструкции воздушного судна

aircraft structural deformation

дирижабль жесткой конструкции

rigid airship

дирижабль полужесткой конструкции

semirigid airship

дорабатывать конструкцию воздушного судна

after an aircraft

кессонная конструкция

torsion box structure

конструкция воздушного судна

1. aircraft design

2. aircraft structure конструкция с работающей обшивкой

stressed-skin structure

конфигурация конструкции закрылка

flap structural configuration

крыло кессонной конструкции

torsion box wing

масса конструкции

1. deadload

2. dead load модульная конструкция

engine module construction

модульная конструкция двигателя

modular engine design

нагружать конструкцию

load the structure

несиловой элемент конструкции

secondary structural member

основная конструкция

basic design

основной элемент конструкции

primary element of structure

отказоустойчивая конструкция

fail-safe structure

повреждать конструкцию воздушного судна

damage aircraft structure

поломка конструкции

structural failure

сварная конструкция

welded construction

силовой элемент конструкции

primary structural member

стабилизатор кессонной конструкции

torsion box stabilizer

фюзеляж ферменной конструкции

truss fuselage

цельнометаллическая конструкция

1. all-metal construction

2. all-metal structure элемент конструкции

member

элемент конструкции воздушного судна

aircraft component

элемент несущей конструкции

load-carrying structural member

area

1. область; зона; район

2. площадь; площадь поверхности

air intake hazard area — опасная зона перед воздухозаборником (двигателя)

air traffic control area — зона управления воздушным движением, зона УВД

area of coverage of the forecasts — район обеспечения прогнозами

extended end safety area — продлённая концевая зона безопасности (ВПП)

runway end safety area — концевая зона безопасности ВПП

search and rescue area — район поиска и спасания

takeoff flight path area — зона набора высоты при взлёте

to leave a parking area — выруливать с места стоянки

upper level control area — верхний район управления эшелонированием

— acceleration area

— active thunderstorm area

— advisory area

— aerodrome approach area

— aerodrome graded area

— aerodrome movement area

— air area

— aircraft movement area

— airport construction area

— airport prohibited area

— airport service area

— air-route area

— airspace restricted area

— alert area

— alighting area

— approach area

— area of coverage

— area of occurrence

— area of responsibility

— baggage break-down area

— baggage delivery area

— baggage-claim area

— bearing area

— boarding area

— break-in area

— build-in area

— caution flight area

— circling approach area

— climb-out area

— cone effect area

— congested area

— danger area

— dead area

— deceleration area

— departure area

— design wing area

— direct transit area

— drag area

— end safety area

— en-route area

— entry area

— Eurocontrol area

— fog-prone area

— gases shear area

— grass landing area

— gross wing area

— hard-core area

— holding area

— interference-free area

— landing area

— lifting surface area

— liftoff area

— loading area

— low air area

— low control area

— maintenance area

— make-up area

— manoeuvering area

— noncritical area

— nozzle exit area

— obstructed landing area

— oceanic control area

— open-water area

— operational area

— overrun area

— overrun safety area

— overwing walkway area

— parking area

— passenger assembly area

— polar area

— poleward area

— prepared landing area

— prohibited area

— propeller disk area

— radar control area

— radar service area

— recovery area

— reserved area

— restricted area

— restricted use area

— routing area

— run-up area

— sensitive area

— service area

— signal area

— speed control area

— supporting area

— tailpipe area

— takeoff area

— temporary restricted area

— terminal area

— terminal control area

— ticket check area

— training area

— transit area

— transit passenger area

— turnaround area

— undershoot area

— unobstructed landing area

— upper advisory area

— upper air area

— upper control area

— warning area

— wing area

обоснование пригодности

Обоснование пригодности / приемлемости-- This has the effect of making the trimmed results reflect only the differences between wing-body data and wing-body estimates, which is justified in light of the validation of design methods which are primarily wing-body oriented.

обоснование приемлемости

Обоснование пригодности / приемлемости-- This has the effect of making the trimmed results reflect only the differences between wing-body data and wing-body estimates, which is justified in light of the validation of design methods which are primarily wing-body oriented.

condition

1. условие

2. состояние; положение; обстановка

3. режим

condition for a nontrivial solution

condition of optimality

1-g condition

20-deg angle-of-attack condition

aim conditions

airworthy condition

altitude condition

approach conditions

asymmetric wing sweep conditions

austere conditions

begin cruise conditions

below-stall condition

best-range conditions

boundary conditions

caution conditions

ceiling conditions

CFL condition

climb condition

continuity condition

Courant-Friedrichs-Levi condition

crossflow conditions

cruise condition

cruise conditions

day conditions

deep-stalled condition

departure conditions

Dirichlet condition

displacement boundary conditions

divergence condition

divergent condition

dutch roll condition

elevator-free condition

engine-out condition

environmental condition

equilibrium condition

failure conditions

far-field boundary condition

fatigue condition

final conditions

flexural conditions

flight condition

flight conditions

flow conditions

flow tangency condition

flutter conditions

flutter onset conditions

flyaway condition

foggy conditions

force boundary conditions

free-flight condition

free-free boundary conditions

freestream condition

freestream conditions

full-down condition

full-scale conditions

high conditions

high-angle-of-attack conditions

high-maneuver-lift conditions

high-drag condition

high-g conditions

hot conditions

hover condition

hover-flight condition

icing conditions

initial steady-flight conditions

instrument conditions

instrument meteorological conditions

Kuhn-Tucker conditions

Kutta condition

Kutta-Zhukowsky condition

landing condition

landing conditions

launch conditions

lift condition

lift-equal-to-weight condition

lighting conditions

lightning conditions

limit condition

load conditions

loading conditions

longitudinally trimmed condition

low-angle-of-attack conditions

low-visibility conditions

low-light conditions

low-speed conditions

maneuver condition

maneuver entry conditions

maneuvering condition

maximum endurance conditions

meteorological conditions

minimum drag condition

mission abort conditions

near-field boundary conditions

Neumann boundary condition

neutral backside condition

no-slip condition

no-wind conditions

no-windshear condition

nonmaneuver conditions

nonpowered-lift condition

off-design conditions

off-nominal conditions

omega condition

operating condition

operational condition

optimality condition

oscillatory condition

out-of-balance condition

out-of-trim condition

overheat condition

overload conditions

overtemperature condition

periodicity condition

post-stall condition

postcrash conditions

powered-lift condition

pre-stall condition

pull-up condition

quasi-steady-state condition

Rankine-Hugoniot conditions

resonant condition

restraint conditions

rotating conditions

scaling condition

sea-level conditions

shock-on-lip condition

simulator conditions

sliding condition

slip condition

slow flight conditions

stalled condition

stalled conditions

steady-state condition

STOL conditions

straight-and-level conditions

stress condition

subcritical conditions

supercritical condition

supersonic conditions

supersonic leading-edge condition

support conditions

system-off condition

tailwind conditions

takeoff conditions

task conditions

temperature jump condition

terminal condition

tip conditions

transient condition

transonic condition

transpiration condition

transversality condition

Tresca`s yield condition

trim condition

trimmed condition

tropical day conditions

unaugmented flutter condition

unstable condition

viewing conditions

visibility conditions

visual contact conditions

wake conditions

washout condition

weather conditions

wind conditions

wind shear conditions

wing-leveled condition

wing rock condition

wings-level condition

working conditions

zero-wind conditions

point

1. точка; пункт < маршрута>

2. место; пункт; ориентир; положение; координата

3. значение < величины>

4. режим; условия <напр. полета>

5. деление < шкалы>

6. узел < расчетной сетки>

point of regard

point of sweep initiation

point of taper initiation

aircraft reference point

angle-of-attack point

begin cruise point

bifurcation point

brake release point

branching point

contact point

continuously computed impact point

critical decision point

data point

design point

effective flight point

equilibrium point

fin n% chord point

flash point

flight point

flutter point

frequency point

fuel match point

glidepath intercept point

grid point

half-span point

high-AOA trim point

high-stress point

holding point

impingement point

inspection point

intercept point

landing point

landing decision point

liftoff point

maneuver point

maneuver point, pitch motivator fixed

maneuver point, pitch motivator free

maneuver point, stick free

maximum thickness point

mesh point

mid-mission point

minimum pressure point

multiple refuelling points

n% chord point

neutral point

neutral point, pitch motivator fixed

neutral point, pitch motivator free

neutral point, stick fixed

neutral point, stick free

Newtonian stagnation point

observer point

off-body point

pivot point

rating point

reattachment point

reference point

reference noise measurement point

refuel/defuel point

roll-reversal point

rotation point

saddle point

sensing point

separation point

servicing point

stable trim point

stagnation point

stall point

steer point

stick-fixed maneuver point

stick-fixed neutral point

stick-free maneuver point

stick-free neutral point

takeoff critical decision point

test point

tip point

TMA entering point

touchdown point

trim point

triple point

turning point

wing fold tie-down point

wing support point

wing to fuselage attachment point

wireframe point

Cierva, Juan de la

SUBJECT AREA: Aerospace

[br]

b. 21 September 1895 Murcia, Spain

d. 9 December 1936 Croydon, England

[br]

Spanish engineer who played a major part in developing the autogiro in the 1920s and 1930s.

[br]

At the age of 17, Cierva and some of his friends built a successful two-seater biplane, the BCD-1 (C for Cierva). By 1919 he had designed a large three-engined biplane bomber, the C 3, which unfortunately crashed when its wing stalled (list its lift) during a slow-speed turn. Cierva turned all his energies to designing a flying machine which could not stall: his answer was the autogiro. Although an autogiro looks like a helicopter, its rotor blades are not driven by an engine, but free-wheel like a windmill. Forward speed is provided by a conventional engine and propeller, and even if this engine fails, the autogiro's rotors continue to free-wheel and it descends safely. Cierva patented his autogiro design in 1920, but it took him three years to put theory into practice. By 1925, after further improvements, he had produced a practical rotary-winged flying machine.

He moved to England and in 1926 established the Cierva Autogiro Company Ltd. The Air Ministry showed great interest and a year later the British company Avro was commissioned to manufacture the C 6A Autogiro under licence. Probably the most significant of Cierva's autogiros was the C 30A, or Avro Rota, which served in the Royal Air Force from 1935 until 1945. Several other manufacturers in France, Germany, Japan and the USA built Cierva autogiros under licence, but only in small numbers and they never really rivalled fixed-wing aircraft. The death of Cierva in an airliner crash in 1936, together with the emergence of successful helicopters, all but extinguished interest in the autogiro.

[br]

Principal Honours and Distinctions

Daniel Guggenheim Medal. Royal Aeronautical Society Silver Medal, Gold Medal (posthumously) 1937.

Bibliography

1931, Wings of To-morrow: The Story of the Autogiro, New York (an early account of his work).

He read a paper on his latest achievements at the Royal Aeronautical Society on 15 March 1935.

Further Reading

P.W.Brooks, 1988, Cierva Autogiros: The Development of Rotary Wing Flight, Washington, DC (contains a full account of Cierva's work).

Jose Warleta. 1977, Autogiro: Juan de la Cierva y su obra, Madrid (a detailed account of his work in Spain).

Oliver Stewart, 1966, Aviation: The Creative Ideas, London (contains a chapter on Cierva).

JDS

Dunne, John William

SUBJECT AREA: Aerospace

[br]

b. 2 December 1875 Co. Kildare, Ireland

d. 24 August 1949 Oxfordshire, England

[br]

Irish inventor who pioneered tailless aircraft designed to be inherently stable.

[br]

After serving in the British Army during the Boer War. Dunne returned home convinced that aeroplanes would be more suitable than balloons for reconnaissance work. He built models to test his ideas for a tailless design based on the winged seed of a Javanese climbing plant. In 1906 Dunne joined the staff of the Balloon Factory at Farnborough, where the Superintendent, Colonel J.E.Capper, was also interested in manned kites and aeroplanes. Since 1904 the colourful American "Colonel" S.F. Cody had been experimenting at Farnborough with manned kites, and in 1908 his "British Army Dirigible No. 1" made the first powered flight in Britain. Dunne's first swept-wing tailless glider was ready to fly in the spring of 1907, but it was deemed to be a military secret and flying it at Farnborough would be too public. Dunne, Colonel Capper and a team of army engineers took the glider to a remote site at Blair Atholl in Scotland for its test flights. It was not a great success, although it attracted snoopers, with the result that it was camouflaged. Powered versions made short hops in 1908, but then the War Office withdrew its support. Dunne and his associates set up a syndicate to continue the development of a new tailless aeroplane, the D 5; this was built by Short Brothers (see Short, Hugh Oswald) and flew successfully in 1910. It had combined elevators and ailerons on the wing tips (or elevons as they are now called when fitted to modern delta-winged aircraft). In 1913 an improved version of the D 5 was demonstrated in France, where the pilot left his cockpit and walked along the wing in flight. Dunne had proved his point and designed a stable aircraft, but his health was suffering and he retired. During the First World War, however, it was soon learned that military aircraft needed to be manoeuvrable rather than stable.

[br]

Bibliography

1913, "The theory of the Dunne aeroplane", Journal of the Royal Aeronautical Society (April).

After he left aviation, Dunne became well known for his writings on the nature of the universe and the interpretation of dreams. His best known-work was An Experiment

With Time (1927; and reprints).

Further Reading

P.B.Walker, 1971, Early Aviation at Farnborough, Vol. I, London; 1974, Vol. II (provides a detailed account of Dunne's early work; Vol. II is the more relevant).

P.Lewis, 1962, British Air craft 1809–1914, London (for details of Dunne's aircraft).

JDS

двигатель

двигатель сущ

1. engine

2. motor авиационное топливо для турбореактивных двигателей

aviation turbine fuel

авиационный двигатель воздушного охлаждения

air-cooled engine

агрегат с приводом от двигателя

engine-driven unit

акустическая характеристика двигателя

engine acoustic performance

асимметричная тяга двигателей

asymmetric engines power

балка крепления двигателя

1. engine mount beam

2. engine lifting beam бесшумный двигатель

quiet engine

блок входного направляющего аппарата двигателя

guide vane assembly

блок управления створками капота двигателя

cowl flap actuation assembly

боковой двигатель

side engine

вентилятор двигателя

engine fan

взлет на режимах работы двигателей, составляющих наименьший шум

noise abatement takeoff

взлет при всех работающих двигателях

all-engine takeoff

внутренний контур двигателя

engine core

воздушная система запуска двигателей

air starting system

воздушное судно с газотурбинными двигателями

turbine-engined aircraft

воздушное судно с двумя двигателями

twin-engined aircraft

воздушное судно с двумя и более двигателями

multiengined aircraft

воздушное судно с одним двигателем

1. one-engined aircraft

2. single-engined aircraft воздушное судно с поршневым двигателем

piston-engined aircraft

воздушное судно с турбовинтовыми двигателями

turboprop aircraft

воздушное судно с турбореактивными двигателями

turbojet aircraft

время обкатки двигателя

engine runin time

время опробования двигателя на земле

engine ground test time

встречный запуск двигателя

engine relight

выбег двигателя

1. run-down engine operation

2. engine rundown выбор режима работы двигателя

selection of engine mode

выводить двигатель из режима реверса

unreverse an engine

выключенный двигатель

engine off

выполнять холодный запуск двигателя

blow down an engine

высота повторного двигателя

restarting altitude

высотность двигателя

engine critical altitude

высотные характеристики двигателя

engine altitude performances

высотный двигатель

altitude engine

высотный корректор двигателя

mixture control assembly

газотурбинный двигатель

1. gas turbine

2. turbine engine 3. gas turbine engine газотурбинный двигатель с осевым компрессором

axial-flow итьбю.gas turbine engine

генератор с приводом от двигателя

engine-driven generator

главный вал двигателя

engine drive shaft

глушитель двигателя

engine detuner

гондола двигателя

engine nacelle

гондола двигателя на пилоне

side engine nacelle

гонка двигателя на земле

ground runup

давать двигателю полный газ

open up an engine

двигатель азимутальной коррекции

azimuth torque motor

двигатель без наддува

self-aspirating engine

двигатель внутреннего сгорания

1. internal combustion

2. combustion engine двигатель водяного охлаждения

water-cooled engine

двигатель горизонтальной коррекции

leveling torque motor

двигатель магнитной коррекции

slaving torque motor

двигатель на режиме малого газа

idling engine

двигатель поперечной коррекции

roll erection torque motor

двигатель продольной коррекции

pitch erection torque motor

двигатель, расположенный в крыле

in-wing mounted

двигатель с большим ресурсом

longer-lived engine

двигатель с высокой степенью двухконтурности

high bypass ratio engine

двигатель с высокой степенью сжатия

high compression ratio engine

двигатель с левым вращением ротора

left-hand engine

двигатель с низкой степенью двухконтурности

low bypass ratio engine

двигатель со свободной турбиной

free-turbine engine

двигатель с пониженной тягой

derated engine

двигатель с правым вращением ротора

right-hand engine

двигатель типа двухрядная звезда

double-row radial engine

двигатель, установленный в мотогондоле

naccele-mounted engine

двигатель, установленный вне фюзеляжа

outboard engine

двигатель, установленный в отдельной гондоле

podded engine

двигатель, установленный в фюзеляже

in-board engine

двигатель, установленный на крыле

on-wing mounted engine

двигатель, установленный на пилоне

pylon-mounted engine

двухвальный газотурбинный двигатель

two-shaft turbine engine

двухкаскадный двигатель

two-spool engine

двухконтурный двигатель

bypass engine

двухконтурный турбовентиляторный двигатель

ducted-fan engine

двухконтурный турбореактивный двигатель

1. bypass turbojet

2. double-flow engine 3. dual-flow turbojet engine двухконтурный турбореактивный двигатель с дожиганием топлива во втором контуре

duct burning bypass engine

двухроторный двигатель

two-rotor engine

дефлектор двигателя

engine baffle

доводка двигателя

engine development

дожигать топливо, форсировать двигатель

reheat

дозвуковой двигатель

subsonic engine

дренажная система двигателей

engine vent system

заброс оборотов двигателя

1. engine overspeed

2. overspeed зависание оборотов двигателя

engine speed holdup

заклинивание двигателя

engine seizure

замок пазового типа лопатки двигателя

groove-type blade attachment

замок штифтового типа лопатки двигателя

pig-type blade attachment

запускать двигатель

1. start an engine

2. light an engine 3. fire an engine запускать двигатель в полете

restart the engine in flight

запуск двигателя

1. engine starting

2. starting engine operation запуск двигателя с забросом температуры

engine hot starting

(выше допустимой) звездообразный двигатель

radial engine

избыток тяги двигателя

engine thrust margin

имитированный отказ двигателя

simulated engine failure

испытание двигателя в полете

inflight engine test

капот двигателя

engine cowl

клапан запуска двигателя

engine start valve

кнопка запуска двигателя

engine starter button

кнопка запуска двигателя в воздухе

flight restart button

кожух двигателя

engine jacket

контроль состояния двигателей

engines trend monitoring

критический двигатель

critical powerplant

крыльевой двигатель

wing engine

левый внешний двигатель

port-side engine

левый крайний двигатель

port-outer engine

ложный запуск двигателя

1. engine false starting

2. engine wet starting максимально допустимый заброс оборотов двигателя

maximum engine overspeed

максимальный потолок при всех работающих двигателях

all-power-units ceiling

метод прогнозирования шума реактивных двигателей

jet noise prediction technique

механизм измерителя крутящего момента на валу двигателя

engine torquemeter mechanism

модуль двигателя

engine module

модульная конструкция двигателя

modular engine design

модульный двигатель

modular engine

муфта сцепления двигателя с несущим винтом вертолета

rotor clutch assembly

набор высоты при всех работающих двигателях

all-engine-operating climb

наработка двигателя

engine operating time

несущий винт с приводом от двигателя

power-driven rotor

обдув генератора двигателя

engine generator cooling

обкатка двигателя

run-in test

обкатывать двигатель

run in an engine

облицовка каналов двигателя

engine duct treatment

одновальный газотурбинный двигатель

single-shaft turbine engine

одновременный запуск всех двигателей

all-engines starting

однокаскадный двигатель

single-rotor engine

окончательный вариант двигателя

definitive engine

опорное кольцо вала двигателя

engine backup ring

опробование двигателя

engine run-up operation

опробовать двигатель

run up an engine

останавливать двигатель

1. close down an engine

2. shut down an engine отбойный щит для опробования двигателей

engine check pad

отказавший двигатель

1. dead engine

2. engine out отказ двигателя

engine failure

отладка двигателя

engine setting-up

отрыв двигателя

engine tearway

отсек двигателя

engine compartment

охлаждение двигателя

engine cooling

падение оборотов двигателя

engine speed loss

перебои в работе двигателя

1. rough engine operations

2. engine trouble перегородка двигателя

engine bulkhead

пилон двигателя

engine pylon

подкрыльевой двигатель

underwing engine

подъемный реактивный двигатель

lift jet engine

пожар внутри двигателя

engine internal fine

полет на одном двигателе

single-engined flight

полет с выключенным двигателем

engine-off flight

полет с выключенными двигателями

power-off flight

полет с несимметричной тягой двигателей

asymmetric flight

полет с работающим двигателем

engine-on flight

полет с работающими двигателями

1. powered flight

2. power-on flight положение при запуске двигателей

starting-up position

поршневой двигатель

1. piston engine

2. reciprocating engine порядок выключения двигателя

cut-off engine operation

порядок запуска двигателя

1. starting procedure

2. engine starting procedure посадка в режиме авторотации в выключенным двигателем

power-off autorotative landing

посадка с отказавшим двигателем

1. engine-out landing

2. dead-engine landing посадка с работающим двигателем

power-on landing

правый внешний двигатель

starboard engine

предварительная гонка двигателя

preliminary runup

предполетное опробование двигателя

preflight engine run

при внезапном отказе двигателя

with an engine suddenly failed

при выключенных двигателях

power-off

при любом отказе двигателя

under any kind of engine failure

приспособление для подъема двигателя

engine lifting device

приставка двигателя

engine adapter

прогревать двигатель

warm up an engine

прогретый двигатель

warmed-up engine

продолжительность работы двигателя на взлетном режиме

full-thrust duration

прокладка в системе двигателя

engine gasket

проставка двигателя

engine retainer

противообледенительная система двигателей

1. engine deicing system

(переменного действия) 2. engine anti-icing system (постоянного действия) противопожарный экран двигателя

engine fire shield

прямоточный воздушно-реактивный двигатель

1. ramjet engine

2. ramjet 3. athodyd прямоточный двигатель

1. self-propelling duct

2. aeroduct пусковой двигатель

starting engine

работа в режиме запуска двигателя

engine start mode

работа двигателя

engine running

работа двигателя на режиме малого газа

idling engine operation

работающий двигатель

engine on

рабочее колесо двигателя

engine impeller

разрегулированный двигатель

rough engine

рама крепления двигателя

engine mount

раскрутка двигателя

engine cranking

расход воздуха через двигатель

engine airflow

реактивный двигатель

jet engine

регулирование зажигания двигателя

engine timing

регулировать двигатель до заданных параметров

adjust the engine

регулировка двигателя

engine adjustment

регулятор предельных оборотов двигателя

engine limit governor

рельсы закатки двигателя

engine mounting rails

рычаг раздельного управления газом двигателя

engine throttle control lever

сектор газа двигателя

engine throttle

система блокировки управления двигателем

engine throttle interlock system

система запуска двигателей

1. engine starting system

2. engine start system система индикации виброперегрузок двигателя

engine vibration indicating system

система суфлирования двигателя

engine breather system

система управления двигателем

engine control system

скорость при всех работающих двигателях

all engines speed

скорость при отказе критического двигателя

critical engine failure speed

снижать режим работы двигателя

slow down an engine

снижение с работающим двигателем

power-on descent

снижение с работающими двигателями

power-on descend operation

снижение шума при опробовании двигателей на земле

ground run-up noise abatement

с приводом от двигателя

power-operated

средний двигатель

center engine

стартер двигателя

engine starter

створка капота двигателя

engine cowl flap

стенд для испытания двигателей

engine test bench

струя двигателя

engine blast

тележка для транспортировки двигателей

engine dolly

топливная система двигателя

engine fuel system

топливо для реактивных двигателей

jet fuel

трехвальный турбовентиляторный двигатель

three-rotor turbofan engine

трехконтурный турбореактивный двигатель

three-flow turbojet engine

трехстрелочный указатель двигателя

three-pointer engine gage

тряска двигателя

engine vibration

турбовальный двигатель

1. turboshaft

2. turboshaft engine турбовентиляторный двигатель

1. turbofan

2. fanjet 3. turbofan engine 4. fan-type engine турбовентиляторный двигатель с высокой степенью двухконтурности

high-bypass fanjet

турбовентиляторный двигатель с низким расходом

low-consumption fanjet

турбовинтовой двигатель

turboprop engine

турбореактивный двигатель

1. turbojet

2. turboprop 3. turbojet engine тяга двигателя

engine thrust

убирать обороты двигателя

decelerate an engine

узел закатки двигателя

engine roll-in fitting

узел крепления двигателя

engine mounting attachment

узел подвески двигателя

engine attach fitting

указатель вибрации двигателя

engine vibration indicator

указатель оборотов двигателя

engine tachometer indicator

уменьшение мощности двигателей воздушного судна

aircraft power reduction

устанавливать двигатель

install an engine

установка двигателя

engine installation

установка режима работы двигателя

throttle setting

установленный на двигателе

engine-mounted

фильтр двигателя

engine screen

фланец отбора воздуха от двигателя

engine air bleed flange

форсажный двигатель

boost engine

форсированный двигатель

uprated engine

характеристики двигателя

engine performances

хвостовая часть гондолы двигателя

aft power nacelle

холодная прокрутка двигателя

engine dry starting

цапфа подвески двигателя

engine mounting trunnion

цикл двигателя

engine cycle

цилиндр двигателя

engine cylinder

цифровой электронный регулятор режимов работы двигателя

digital engine control

число оборотов двигателя на взлетном режиме

engine takeoff speed

шкворень крепления двигателя

engine attachment pilot

штопор при неработающих двигателях

powerless spin

штопор при работающих двигателях

1. powered spin

2. power spin электронная система управления двигателем

electronic engine control system

эмиссия от двигателей

engine emission

area

area n

область

acceleration area

участок разгона

active thunderstorm area

район активной грозовой деятельности

advisory area

консультативная зона

aerodrome approach area

зона подхода к аэродрому

aerodrome graded area

спланированный участок аэродрома

aerodrome movement area

зона движения воздушных судов

air intake hazard area

опасная зона перед воздухозаборником

airport construction area

зона застройки аэропорта

airport prohibited area

запретная зона аэропорта

airport service area

служебная зона аэропорта

air-route area

район воздушных трасс

airspace restricted area

зона воздушного пространства с особым режимом полета

air traffic control area

зона управления воздушным движением

alert area

зона повышенного внимания

alighting area

место посадки

approach area

зона захода на посадку

approach area hazard

препятствие в зоне захода на посадку

area chart

карта района

area control

управление в зоне

area control center

районный диспетчерский центр управления движением на авиатрассе

area density calculation

расчет удельной нагрузки на поверхность

area flight control

районный диспетчерский пункт управления полетами

area forecast

зональный прогноз

area forecast center

центр зональных прогнозов

area forecast plan

план зональных прогнозов

area forecast system

система зональных прогнозов

(погоды) area navigation

зональная навигация

area navigation capability

технические характеристики зональной навигации

area navigation equipment

бортовое оборудование зональной навигации

area navigation route

маршрут зональной навигации

area navigation system

система зональной навигации

area of coverage

зона действия

area of coverage of the forecasts

район обеспечения прогнозами

area of occurence

район происшествия

area of responsibility

зона ответственности

area watch

контроль в зоне

baggage break-down area

зона обработки прибывающего багажа

baggage-claim area

место востребования багажа

baggage delivery area

место выдачи багажа

bearing area

несущая поверхность

boarding area

место загрузки

boundary of the area

граница зоны

break-in area

место вырубания

build-in area

зона застройки

circling approach area

зона захода на посадку по кругу

climb-out area

зона начального этапа набора высоты

cone effect area

зона конусного эффекта

congested area

зона интенсивного воздушного движения

danger area

опасная зона

danger areas chart

карта опасных зон

dead area

мертвая зона

departure area

зона торможения

design wing area

расчетная площадь крыла

direct transit area

зона прямого транзита

drag area

площадь сопротивления

end safety area

концевая зона безопасности

en-route area

зона маршрута

entry area

зона подхода

Eurocontrol area

зона Евроконтроля

extended end safety area

продленная концевая зона безопасности

facsimile area forecast chart

факсимильная карта зональных прогнозов

fog-prone area

район скопления

gases shear area

зона среза активной струи

grass landing area

посадочная площадка с травяным покрытием

gross wing area

площадь крыла, включая подфюзеляжную часть

hard-core area

зона высокой интенсивности

holding area

зона ожидания

interference-free area

зона, свободная от помех

land area

место посадки

landing area facilities

оборудование зоны посадки

leave a parking area

выруливать с места стоянки

lifting surface area

несущая поверхность

liftoff area

зона отрыва

loading area

место загрузки

load per unit area

нагрузка на единицу площади

low air area

нижнее воздушное пространство

low control area

нижний диспетчерский район

maintenance area

зона технического обслуживания

make-up area

место комплектования

maneuvering area

площадь маневрирования

(manoeuvring area) noncritical area

неопасная зона

nozzle exit area

выходное сечение сопла

oceanic area control center

океанический районный диспетчерский центр

oceanic control area

океанический диспетчерский район

open-water area

надводный район

operational area

зона полетов

overrun area

зона выкатывания

overrun safety area

зона безопасности при выкатывании

parking area

место стоянки

passenger assembly area

место сбора пассажиров

polar area

полярный район

poleward area

приполярный район

prepared landing area

подготовленная посадочная площадка

primary area boundary

граница основной зоны

prohibited area

запретная зона

propeller disk area

площадь, ометаемая воздушным винтом

radar control area

зона действия радиолокатора

radar service area

зона радиолокационного обслуживания

recovery area

район обнаружения

reserved area

запасная зона

restricted area

зона ограничения

restricted use area

зона ограниченной эксплуатации

routing area

район прохождения маршрута

run-up area

площадка для опробования

runway end safety area

концевая зона безопасности ВПП

runway end safety area lights

огни концевой зоны безопасности ВПП

search and rescue area

район поиска и спасания

secondary area boundary

граница дополнительной зоны

sensitive area

зона чувствительности

service area

зона обслуживания

signal area

сигнальная площадка

speed control area

зона выдерживания скорости

supporting area

несущая поверхность

tailpipe area

место расположения выхлопных труб

takeoff area

зона взлета

takeoff flight path area

зона набора высоты при взлете

temporary restricted area

зона временного ограничения

terminal area

зона аэродрома

terminal area streamline

схема зоны аэродрома

terminal area surveillance radar

радиолокатор обзора зоны аэродрома

terminal area taxi sequence

очередность заруливания к зданию аэровокзала

terminal control area

узловой диспетчерский район

ticket check area

место проверки билетов

training area

зона тренировочных полетов

transit area

транзитная зона

transit passenger area

зона для транзитных пассажиров

turnaround area

зона разворота на обратный курс

undershoot area

зона перед порогом ВПП

unobstructed landing area

зона приземления

upper advisory area

верхняя консультативная зона

upper air area

верхнее воздушное пространство

upper area control center

диспетчерский центр управления верхним районом

upper control area

верхний диспетчерский район

upper level control area

верхний район управления эшелонированием

variable area nozzle

сопло с регулируемым сечением

warning area

зона предварительного оповещения

wing area

площадь крыла

World area forecast center

Всемирный центр зональных прогнозов