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1 inlet over exhaust engine
двигатель со смешанным расположением клапанов (впускной - в головке, выпускной - в блоке)Англо-русский словарь технических терминов > inlet over exhaust engine
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2 inlet over exhaust engine
Техника: двигатель со смешанным расположением клапанов (впускной - в головке, выпускной - в блоке)Универсальный англо-русский словарь > inlet over exhaust engine
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3 inlet-over-exhaust engine
Универсальный англо-русский словарь > inlet-over-exhaust engine
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4 inlet over exhaust engine
<mvhcl.mot> ■ gegengesteuerter Motor m ; wechselgesteuerter Motor mEnglish-german technical dictionary > inlet over exhaust engine
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5 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
-
adiabatic engine
-
air breathing engine
-
air engine
-
air-cell engine
-
air-chamber engine
-
air-cooled engine
-
aircraft engine
-
air-feed jet engine
-
air-injection engine
-
airless-injection engine
-
alcohol engine
-
analytical engine
-
anchor engine
-
apogee engine
-
approach-correcting engine
-
arc jet engine
-
arrow engine
-
ascent engine
-
assisted takeoff engine
-
AV-1 engine
-
aviation engine
-
axial-flow gas turbine engine
-
bare engine
-
baseline engine
-
basic engine
-
beating engine
-
bipropellant engine
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bismuth ion engine
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bleaching engine
-
blowing engine
-
blown engine
-
booster engine
-
boxer engine
-
brake engine
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Brayton engine
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breaker engine
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bypass engine
-
catalytic engine
-
centrifugal expansion engine
-
ceramic engine
-
coaxial MPD engine
-
cogging engine
-
cold-reaction engine
-
commercial engine
-
compression ignition engine
-
computing engine
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constant 1 engine
-
conventional engine
-
crankcase compression engine
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crest engine
-
cross-compound blowing engine
-
cross-mounted engine
-
cryogenic expansion engine
-
cryogenic rocket engine
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dead engine
-
derated engine
-
descent engine
-
diesel engine
-
diesel-electric engine
-
difference engine
-
digital engine
-
direct-injection engine
-
displacement engine
-
docking engine
-
donkey engine
-
double-row engine
-
double-row radial engine
-
down-rated engine
-
drilling engine
-
dual-flow turbojet engine
-
dual-mode engine
-
duct-burning bypass engine
-
ducted-fan engine
-
electric arcjet engine
-
electron-bombardment engine
-
emergency propulsion engine
-
energy-cell diesel engine
-
erosion engine
-
expansion engine
-
external combustion engine
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F-head engine
-
fire engine with extension ladder
-
fire engine
-
fixed head engine
-
flat engine
-
flat-head engine
-
fluorine-hydrogen engine
-
four-barrel engine
-
four-cycle engine
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Gardner engine
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gas discharge ionizator electrostatic engine
-
gas engine
-
gas turbine engine
-
gas-driven blowing engine
-
gas blowing engine
-
gasoline engine
-
graphics engine
-
heat engine
-
heavy equipment diesel engine
-
heavy-duty engine
-
high bypass ratio engine
-
high-compression engine
-
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
-
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
-
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
-
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
-
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
-
reciprocating solar engine
-
rectenna-powered ion engine
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remanufactured engine
-
restartable engine
-
rotary engine
-
rubidium ion engine
-
separation engine
-
shaft-turbine engine
-
shunting engine
-
single-shaft gas turbine engine
-
six-cylinder in-line engine
-
solar Brayton engine
-
solar engine
-
solar photon rocket engine
-
solar-heated gas engine
-
solar gas engine
-
solar-powered engine
-
spacer plate engine
-
special arrangement engine
-
square engine
-
starting engine
-
steam-driven blowing engine
-
steam blowing engine
-
steering engine
-
Stirling engine
-
stock engine
-
subsonic engine
-
supercharged engine
-
surface ionization engine
-
swirl-chamber diesel engine
-
switch engine
-
take-home engine
-
tee engine
-
test bed engine
-
T-head engine
-
thermal arc engine
-
thermoelectronic engine
-
three-flow turbojet engine
-
towing engine
-
trans-rear engine
-
transverse engine
-
traveling wave plasma engine
-
trimmer engine
-
tripropellant engine
-
truck engine
-
turbine engine
-
turbine expansion engine
-
turbocharged engine
-
turbo engine
-
turbofan engine
-
turbojet engine
-
turboprop engine
-
turboshaft engine
-
turbulence-chamber engine
-
twin rotor engine
-
two-rotor engine
-
two-shaft gas turbine engine
-
two-spool engine
-
unblown engine
-
undersquare engine
-
variable compression engine
-
variable cycle engine
-
variable cylinder engine
-
vehicular engine
-
V-engine
-
volume collision ionization engine
-
Wankel engine
-
warmed-up engine
-
washing engine
-
waste-heat recovery Stirling engine
-
water-cooled engine
-
windmilling engine
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wing engine
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W-type engine
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yard engine -
6 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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7 air
воздух; воздушная среда; атмосфера; II проветривать; обдувать воздухом; II атмосферный; воздушный; пневматический- air acetylene welding - air accumulator - air accumulator with rubber bag - air-actuated - air agitation - air analyzer - air and fuel mixture - air and material separator - air and water post - air application time - air-assisted pressure jet atomiser - air bag - air bag steering wheel - air bag triggering unit - air ball - air barrel pump - air bath - air bell - air bellows - air binding - air blast - air blast nozzle - air blasting - air bleed - air bleed hole - air bleed valve - air bleeder - air blow cabinet - air blower - air-borne particles - air bottle - air bound - air box - air brake - air brake controls - air brake dryer - air brake hose - air brake system - air-braked - air brake dynamometer - air brake foot control - air-break - air bubble - air bulking - air bumper - air cap - air cavity - air cell chamber - air-cell cylinder head - air-cell diesel engine - air-cell piston - air cement gun - air chamber - air chamber diesel engine - air channel - air charge - air check - air chill - air clamp - air cleaner - air cleaner and silencer - air cleaner servicer - air cleaner support - air cleaner test dust - air clearance - air clutch - air cock - air compensating jet - air compressor - air-conditioned - air conditioner - air-conditioner compressor - air conditioning - air-conditioning duct - air-conditioning plant - air conduit - air connection - air consumption - air container - air control - air control shutter - air control valve - air-controlled - air conveyer - air-cooled - air-cooled engine - air-cooled flat twin engine - air cooler - air cooling - air-cored - air-core tyre - air coupling - air cowl - air cure - air-cured - air-curing - air correction jet - air current - air cushion - air cushion car - air cushion shock absorber - air cushioned seat - air cushion vehicle - air cylinder - air cylinder cap - air dam - air damper - air damping - air dashpot - air deflector - air delivery - air delivery hoses - air delivery tube in exhaust port - air density - air director - air dispenser - air distributor - air distribution manifold - air diverter valve - air door operation - air draft - air drag - air draught - air-dried crops - air drier - air drill - air-driven - air-dry - air drying - air drying paint - air duct - air duster - air eddy - air ejector fan - air engine - air escape - air escape valve - air escaping - air exhaust - air-extractor - air-fast - air feed - air feeder - air fed foil - air filter - air filter cleaner - air flow - air flow meter - air-foil bearing - air-foil lattice - air-foil skirt - air fountain - air-free - air friction - air-friction dynamometer - air-fuel ratio - air gap - air gauge - air gun - air hardening - air heater - air heating - air hoist - air hole - air horn - air hose - air-in - air inflating - air injection - air injection engine - air inlet - air inlet angle - air inlet housing - air inlet louvers - air inlet pipe - air inlet strainer - air inlet valve - air input - air intake - air intake branch - air intake filter - air intake heater - air intake opening - air intake pipe - air jet - air-lagged - air leak - air leakage - air-leg - air lift - air line - air line distance - air load - air lock - air-locked - air-lubricated foil thrust bearing - air manifold - air mass meter - air mixing chamber - air nozzle - air oil separator - air-operated - air-operated valve grinder - air-out - air outlet angle - air output - air-oven ageing test - air-over hydraulic brake - air-over hydraulics - air passage - air peener - air petrol mixture - air pillow - air pipe - air piston - air-piston accumulator - plunger accumulator - air-powered - air preheater - air pressure - air pressure brake - air pressure gauge - air pressure test - air-proof - air pump - air quenching - air reaction - air receiver - air regulator - air renewal - air reservoir - air resistance - air resistance horsepower - air-retaining liner - air sand blower - air scoop - air screw - air seal - air-seasoned wood - air seeder - air shrinkage - air side - air silencer - air space - air spoiler - air spray - air spring suspension - air-stabilized foil - air starting - air-steam - air steering control - air-storage chamber - air-storage tank - air straightener - air strainer - air strainer and silencer - air strangler - air stream - air suction inlet - air suction valve - air supply - air supply hose - air swirl - air tank - air test - air throttle - air-tight - air-transportable vehicle - air trap - air tube - air tyre - air-tyred - air valve - air vane - air vent - air vent window - air vessel - air washer - air wheel - bleed off air - determine air in the system - discharge air overboard - tap air from the compressor - top-dressing from air - top-dress plants from air - auxiliary air - carburetted air - charge air - combustion air - compressed air - conditioned air - contaminated air - control air - cooling air - dead air - excess air - free air - fresh air - heavy air - induced air - inlet air - light air - liquid air - outer air - precompressed air - preheated air - rarefied air - return air - scavenging air - soil air - stagnant air - standart air - surface air - surrounding air - turbulent air - used air -
8 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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9 valve
1) = float needle2) клапан (рис. 15,16); вентиль; задвижка; заслонка; золотник; кран; распределительный кран; створка (дверцы); электронная лампа; гидро- или пневмораспределитель; затвор (гидротехнический); (редко) форсунка; II подавать через клапан; питать через клапан; снабжать; обеспечивать - time the valves - valve acceleration - valve-actuating gear - valve adjusting screw - valve arrangement - valve base patch - valve cock disk - valve control mechanism - valve diameter - valve dust cap - valve edge - valve enclosure - valve end - valve extractor - valve grinding - valve gutter - valve guttering - valve head slot - valve holder - valve hole - valve inside - valve inside plunger pin - valve knock - valve lag - valve lap - valve lead - valve lifter roller - valve lifter roller pin - valve lifting cam - valve location - valve manifold - valve mechanism - valve of tyre - valve operating mechanism - valve refacer - valve refacing - valve refacing machine - valve regulation - valve remover - valve reseating - valve retainer lock - valve return - valve rim - valve rocker arm - valve rocker lever - valve rocker pedestal - valve rocker roller - valve rocker roller pin - valve rocker shaft - valve scaling - valve scorching - valve seal - valve seat bore - valve seat extractor - valve seat grinder - valve seating - valve seating tool - valve sinkage - valve slot - valve spring compressor - valve spring damper - valve spring holder - valve spring key - valve spring lifter - valve spring remover - valve spring retainer - valve spring seat - valve spring seat key - valve spring seat pin - valve spring surge - valve spring tool - valve spring washer - valve stem end - valve stem groove - valve stem guide - valve stem seal - valve stripping - valve surge damper - valve system - valve tab - valve tappet clearance - valve tappet roller pin - valve tappet tube - valve tension spring - valve the gas - valve thimble - valve throat - valve timing - valve timing diagram - valve tip - valve train - valve travel - valve unit - valve unloader assembly - valve velocity - valve wrench - supplementary air valve - clapper swing-check valve - closed-centre valve - cross-feed valve - compensation valve - flapper-nozzle valve - flow regulator valve - large capacity brake valve - metering valve - multipurpose valve - pilot valve - programmable valve with 24 hour/7 day timer for closing and opening the compressed air ringmain - programmable valve with line-to-valve-connection and 1 BSP - quick-closing valve - quick-opening valve - single-stage valve - slide valve collar - sliding-sleeve valve - sliding throttle valve - spool valve - spring turn - spring-and-ball valve - stainless steel padlockable decompressing valve- T-valve- water check valve - water-cooled valve - zero-lap valve -
10 flow
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11 Corliss, George Henry
SUBJECT AREA: Steam and internal combustion engines[br]b. 2 June 1817 Easton, Washington City, New York, USAd. 21 February 1888 USA[br]American inventor of a cut-off mechanism linked to the governor which revolutionized the operation of steam engines.[br]Corliss's father was a physician and surgeon. The son was educated at Greenwich, New York, but while he showed an aptitude for mathematics and mechanics he first of all became a storekeeper and then clerk, bookkeeper, salesperson and official measurer and inspector of the cloth produced at W.Mowbray \& Son. He went to the Castleton Academy, Vermont, for three years and at the age of 21 returned to a store of his own in Greenwich. Complaints about stitching in the boots he sold led him to patent a sewing machine. He approached Fairbanks, Bancroft \& Co., Providence, Rhode Island, machine and steam engine builders, about producing his machine, but they agreed to take him on as a draughtsman providing he abandoned it. Corliss moved to Providence with his family and soon revolutionized the design and construction of steam engines. Although he started working out ideas for his engine in 1846 and completed one in 1848 for the Providence Dyeing, Bleaching and Calendering Company, it was not until March 1849 that he obtained a patent. By that time he had joined John Barstow and E.J.Nightingale to form a new company, Corliss Nightingale \& Co., to build his design of steam-engines. He used paired valves, two inlet and two exhaust, placed on opposite sides of the cylinder, which gave good thermal properties in the flow of steam. His wrist-plate operating mechanism gave quick opening and his trip mechanism allowed the governor to regulate the closure of the inlet valve, giving maximum expansion for any load. It has been claimed that Corliss should rank equally with James Watt in the development of the steam-engine. The new company bought land in Providence for a factory which was completed in 1856 when the Corliss Engine Company was incorporated. Corliss directed the business activities as well as technical improvements. He took out further patents modifying his valve gear in 1851, 1852, 1859, 1867, 1875, 1880. The business grew until well over 1,000 workers were employed. The cylindrical oscillating valve normally associated with the Corliss engine did not make its appearance until 1850 and was included in the 1859 patent. The impressive beam engine designed for the 1876 Centennial Exhibition by E. Reynolds was the product of Corliss's works. Corliss also patented gear-cutting machines, boilers, condensing apparatus and a pumping engine for waterworks. While having little interest in politics, he represented North Providence in the General Assembly of Rhode Island between 1868 and 1870.[br]Further ReadingMany obituaries appeared in engineering journals at the time of his death. Dictionary of American Biography, 1930, Vol. IV, New York: C.Scribner's Sons. R.L.Hills, 1989, Power from Steam. A History of the Stationary Steam Engine, Cambridge University Press (explains Corliss's development of his valve gear).J.L.Wood, 1980–1, "The introduction of the Corliss engine to Britain", Transactions of the Newcomen Society 52 (provides an account of the introduction of his valve gear to Britain).W.H.Uhland, 1879, Corliss Engines and Allied Steam-motors, London: E. \& F.N.Spon.RLH -
12 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 -
13 flow
1. течение; истечение; поток; обтекание/ течь; протекать2. расход <жидкости, газа>3. ход; процессflow along a cornerflow in chemical equilibriumflow of momentumadiabatic flowafterburner fuel flowafterburner main fuel flowafterburner pilot fuel flowair injection mass flowairfoil flowarrival flowattached flowaxisymmetric flowaxisymmetrical flowbackward-facing step flowbaroclinic flowbarotropic flowbase flowblade flowBlasius flowbleed flowblood flowbody-glove flowboundary layer flowbypass flowcavitation flowcavity flowchannel flowchemically reacting flowchoked flowCoanda flowcombusting flowcompressible flowconical flowconically symmetric flowcontinuum fluid flowcore flowCouette flowcross flowcurved flowdata flowdissociated flowdivergent flowengine fuel flowentrained flowentrainment induced flowentrance flowequilibrium flowexhaust flowforebody flowfountain flowfree molecular flowfrozen flowfuel flowfully attached flowfully detached flowfully developed turbulent flowground idle fuel flowheat flowhigh-Reynolds number flowhigh-Reynolds-number flowhigh-speed flowhot flowhypersonic flowideal thrust mass flowidle fuel flowinboard flowincompressible flowinlet flowinlet mass flowintake flowintermittent flowinviscid flowirrotational flowisentropic flowisothermal flowjet flowlaminar flowleading-edge flowlift-producing flowlow-energy flowlow-speed flowlow-temperature flowlower-surface flowmain burner fuel flowmain engine fuel flowmass flowmean flowmelt flowmixed flowmultiphase flowmultishocked flownear-critical flownear-wake flownear-wall flownearly choked flowNewtonian flownonisentropic flownonequilibrium flownozzle flownozzle mass flowone-dimensional flowone-phase flowoptical flowoscillatory flowover-the-wing flowparticle-laden flowpassenger flowperturbed flowPoiseuille flowpotential flowprimary flowprotuberance-induced flowrarefied flowrecirculating flowrecirculation flowreversal flowreverse flowreverser mass flowroot flowrotating flowrotational flowrotor flowsecondary flowseparated flowseparating flowseparation flowseparation-induced flowshear flowshock interference flowshocked flowsinusoidally perturbed flowslip flowspanwise flowspiral flowstable flowsteady flowsubcritical flowsubcritical mass flowsubsonic flowsuction flowsuction mass flowsudden expansion flowsupercritical flowsupersonic flowswirling flowtailplane flowthree-dimensional flowtip flowtraffic flowtranquil flowtransient flowtransitional flowtransonic flowturbulent flowtwo-dimensional flowtwo-phase flowunblown flowunconfined flowuniform flowunsteady flowup-wash flowviscous flowviscous-dominated flowvortex flowvortex-dominated flowvortex-free flowvortex-like flowvortex-type flowvortical flowwake-like flowwall-bounded flowwing flowzero-lift flow -
14 fan
вентилятор; крыло; лопасть (вентилятора); мулинетка (для испытания двигателей); крылатка; крыло (мельницы); II дуть; подавать воздух; вентилировать; обмахивать; веять (зерно)- fan baffle- fan belt- fan belt tensioner- fan dial- fan duty - fan dynamometer - fan guard - fan housing - fan hub - fan pressure - fan propeller - fan pulley - fan pulley bracket - fan pulley bracket adjuster screw - fan shaft gear - fan shroud - fan shutter - fan slip - fan spindle - fan ventilator - fan wind - air-ejector fan- blow fan- blow-over fan - centrifugal fan - chopper fan - drying fan - helical fan - inlet fan - integral fan - low-duty fan - material handling fan - mill exhauster fan - pivoting fan - radiator fan - recleaner fan - scavenger fan - separator fan - straw-carrier fan - suction fan - turbine fan - wet suction fan -
15 duct
труба, трубопровод ( относительно большого диаметра) ; воздухо или газовод; газоход; канал; кабелепровод; волновод; см. тж. pipe и tubeexhaust(-deflection, -gas) duct — выхлопная труба, труба для отвода выхлопных газов; ркт. газоотводный канал или труба, газоход
inlet air duct — воздухопровод воздухозаборника; входной канал (двигателя); воздухоприёмная труба
thermal deicing (air) duct — трубопровод воздушно-теплового противообледенителя периодического действия
variable (air) inlet duct — воздухопровод регулируемого воздухозаборника; регулируемый входной канал (двигателя)
variable (air) intake duct — воздухопровод регулируемого воздухозаборника; регулируемый входной канал (двигателя)
— air duct
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