nozzle$53933$ - перевод на греческий
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nozzle$53933$ - перевод на греческий

NOZZLE THAT CONVERTS THE INTERNAL ENERGY OF A WORKING GAS INTO PROPULSIVE FORCE
Jet nozzle; Propulsive nozzle
  • Sketch showing rearward-discharge of gas from exhaust manifold.
  • Sectioned Jumo 004 exhaust nozzle, showing the ''Zwiebel'' central plug.

nozzle      
n. εξέχο στόμιο, ρύγχος, άκρο σωλήνα, στόμιο, προφύσιο, στόμιο σωλήνα
jet engine         
  • Jet engine during take-off showing visible hot exhaust ([[Germanwings]] [[Airbus A319]])
  • U.S. Air Force [[F-15E Strike Eagle]]s
  • Typical combustion efficiency of an aircraft gas turbine over the operational range.
  • Typical combustion stability limits of an aircraft gas turbine.
  • Electronic centralised aircraft monitor (ECAM)]] Display
  • Propulsive efficiency comparison for various gas turbine engine configurations
  • Allies']] only jet aircraft to achieve combat operations during World War II.
  • JT9D]] turbofan jet engine installed on a [[Boeing 747]] aircraft.
  • Turbojet engine
  • A cutaway of the Junkers Jumo 004 engine
  • [[Heinkel He 178]], the world's first aircraft to fly purely on turbojet power
  • Dependence of propulsion efficiency (η) upon the vehicle speed/exhaust velocity ratio (v/v<sub>e</sub>) for air-breathing jet and rocket engines.
  • A pump jet schematic.
  • Rocket engine propulsion
  • [[Specific impulse]] as a function of speed for different jet types with kerosene fuel (hydrogen I<sub>sp</sub> would be about twice as high). Although efficiency plummets with speed, greater distances are covered. Efficiency per unit distance (per km or mile) is roughly independent of speed for jet engines as a group; however, airframes become inefficient at supersonic speeds.
  • Schematic diagram illustrating the operation of a low-bypass turbofan engine.
  • The [[Whittle W.2]]/700 engine flew in the [[Gloster E.28/39]], the first British aircraft to fly with a turbojet engine, and the [[Gloster Meteor]]
REACTION ENGINE WHICH GENERATES THRUST BY JET PROPULSION
Jet engines; Jet turbine; Jet engined; Aircraft jet engine; Jet-engine; Jet motor; Jet thrust; Jet Engine; Lubrication system of jet engines; Lubrication System of Jet Engines; Jet propulsion engine; Jet engine nozzle; Duct jet engine; Jet engines and volcanic ash; Jetmotor; Energy efficiency of aircraft jet engines; Jet aviation
μηχανή αεροπλάνου
shower bath         
  • [[Public]] shower room
  • A combination shower and bathtub, with movable screen
  • Brazilian electric shower
  • Hydro-massage on Lake Moynaki, [[Yevpatoria]], [[Crimea]]
  • Rib shower
  • A shower head
  • language=en-GB}}</ref>
PLACE IN WHICH A PERSON BATHES UNDER A SPRAY OF WATER
Shower curtain; Shower door; Shower curtains; Showers; Showerhead; Showering; Shower (for washing); Shower (stall); Shower head; Hand shower; Low-flow showerhead; 🚿; Handheld shower; Telephone shower; Wetroom; Wet room; Shower bath; Wet-room; Walk-in shower; Shower caddy; Walkin shower; Shower nozzle; Hot Shower
λούτρο για καταινόηση, ντους

Определение

Nozzle
·noun A short tube, usually tapering, forming the vent of a hose or pipe.
II. Nozzle ·noun The nose; the snout; hence, the projecting vent of anything; as, the nozzle of a bellows.
III. Nozzle ·noun A short outlet, or inlet, pipe projecting from the end or side of a hollow vessel, as a steam-engine cylinder or a steam boiler.

Википедия

Propelling nozzle

A propelling nozzle is a nozzle that converts the internal energy of a working gas into propulsive force; it is the nozzle, which forms a jet, that separates a gas turbine, or gas generator, from a jet engine.

Propelling nozzles accelerate the available gas to subsonic, transonic, or supersonic velocities depending on the power setting of the engine, their internal shape and the pressures at entry to, and exit from, the nozzle. The internal shape may be convergent or convergent-divergent (C-D). C-D nozzles can accelerate the jet to supersonic velocities within the divergent section, whereas a convergent nozzle cannot accelerate the jet beyond sonic speed.

Propelling nozzles may have a fixed geometry, or they may have variable geometry to give different exit areas to control the operation of the engine when equipped with an afterburner or a reheat system. When afterburning engines are equipped with a C-D nozzle the throat area is variable. Nozzles for supersonic flight speeds, at which high nozzle pressure ratios are generated, also have variable area divergent sections. Turbofan engines may have an additional and separate propelling nozzle which further accelerates the bypass air.

Propelling nozzles also act as downstream restrictors, the consequences of which constitute an important aspect of engine design.