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- Turboshaft - Wikipedia
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- Free-turbine turboshaft - Wikipedia
- Turboshaft Engine - SKYbrary Aviation Safety
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- T408 Turboshaft Engine - GE Aerospace
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- T700 Turboshaft Engine - GE Aerospace
- Understanding Turboshaft Engines: Key Features and …
turboshaft
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A turboshaft engine is a form of gas turbine that is optimized to produce shaft horsepower rather than jet thrust. In concept, turboshaft engines are very similar to turbojets, with additional turbine expansion to extract heat energy from the exhaust and convert it into output shaft power. They are even more similar to turboprops, with only minor differences, and a single engine is often sold in both forms.
Turboshaft engines are commonly used in applications that require a sustained high power output, high reliability, small size, and light weight. These include helicopters, auxiliary power units, boats and ships, tanks, hovercraft, and stationary equipment.
Overview
A turboshaft engine may be made up of two major parts assemblies: the 'gas generator' and the 'power section'. The gas generator consists of the compressor, combustion chambers with ignitors and fuel nozzles, and one or more stages of turbine. The power section consists of additional stages of turbines, a gear reduction system, and the shaft output. The gas generator creates the hot expanding gases to drive the power section. Depending on the design, the engine accessories may be driven either by the gas generator or by the power section.
In most designs, the gas generator and power section are mechanically separate so they can each rotate at different speeds appropriate for the conditions, referred to as a 'free power turbine'. A free power turbine can be an extremely useful design feature for vehicles, as it allows the design to forgo the weight and cost of complex multiple-ratio transmissions and clutches.
An unusual example of the turboshaft principle is the Pratt & Whitney F135-PW-600 turbofan engine for the STOVL Lockheed F-35B Lightning II – in conventional mode it operates as a turbofan, but when powering the Rolls-Royce LiftSystem, it switches partially to turboshaft mode to send 29,000 horsepower forward through a shaft and partially to turbofan mode to continue to send thrust to the main engine's fan and rear nozzle.
Large helicopters use two or three turboshaft engines. The Mil Mi-26 uses two Lotarev D-136 at 11,400 hp each, while the Sikorsky CH-53E Super Stallion uses three General Electric T64 at 4,380 hp each.
History
The first gas turbine engine considered for an armoured fighting vehicle, the GT 101 which was based on the BMW 003 turbojet, was tested in a Panther tank in mid-1944.
The first turboshaft engine for rotorcraft was built by the French engine firm Turbomeca, led by its founder Joseph Szydlowski. In 1948, they built the first French-designed turbine engine, the 100-shp 782. Originally conceived as an auxiliary power unit, it was soon adapted to aircraft propulsion, and found a niche as a powerplant for turboshaft-driven helicopters in the 1950s. In 1950, Turbomeca used its work from the 782 to develop the larger 280-shp Artouste, which was widely used on the Aérospatiale Alouette II and other helicopters. This was following the experimental installation of a Boeing T50 turboshaft in an example of the Kaman K-225 synchropter on December 11, 1951, as the world's first-ever turboshaft-powered helicopter of any type to fly.
The T-80 tank, which entered service with the Soviet Army in 1976, was the first tank to use a gas turbine as its main engine. Since 1980 the US Army has operated the M1 Abrams tank, which also has a gas turbine engine. (Most tanks use reciprocating piston diesel engines.) The Swedish Stridsvagn 103 was the first tank to utilize a gas turbine as a secondary, high-horsepower "sprint" engine to augment its primary piston engine's performance. The turboshaft engines used in all these tanks have considerably fewer parts than the piston engines they replace or supplement, mechanically are very reliable, produce reduced exterior noise, and run on virtually any fuel: petrol (gasoline), diesel fuel, and aviation fuels. However, turboshaft engines have significantly higher fuel consumption than the diesel engines that are used in the majority of modern main battle tanks.
See also
Jet engine
Wave disk engine
MTT Turbine Superbike, a turboshaft-powered superbike
Turbine-electric transmission
References
Kata Kunci Pencarian: turboshaft
turboshaft
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Turboshaft - Wikipedia
A turboshaft engine is a form of gas turbine that is optimized to produce shaft horsepower rather than jet thrust. In concept, turboshaft engines are very similar to turbojets , with additional …
How The 4 Types Of Turbine Engines Work - Boldmethod
Oct 24, 2017 · How Does A Turboshaft Work? Turboshafts are essentially a turbojet engine with a large shaft connect to the back of it. And since most of these engines are used on helicopters, …
An In-Depth Overview of Turboshaft Engines ... - MechanicalJungle
The turboshaft engine is the engine that produces the power of the shaft to run the machine instead of generating thrust to fly the aircraft. The turboshaft engine is common in small …
Free-turbine turboshaft - Wikipedia
A free-turbine turboshaft is a form of turboshaft or turboprop gas turbine engine where the power is extracted from the exhaust stream of a gas turbine by an independent turbine, downstream …
Turboshaft Engine - SKYbrary Aviation Safety
A turboshaft engine is a variant of a jet engine that has been optimised to produce shaft power to drive machinery instead of producing thrust. Turboshaft engines are most commonly used in …
Turboprop vs Turboshaft Engine: What’s the Difference?
Mar 6, 2023 · A turboshaft engine is a type of aircraft engine that, like turboprop engines, burns jet fuel and air to turn a propeller. They are commonly found in helicopters. Many helicopters …
T408 Turboshaft Engine - GE Aerospace
GE Aerospace’s latest turboshaft engine, developed for heavy lift applications, is now demonstrating game-changing power. When compared to its predecessor – GE's T64 …
Turboprop and Turboshaft Engines - School of Aeronautics and ...
A turboprop engine bears a functional similarity to a turbofan, in that the shaft of the engine is used to drive another system. The other system is in this case a gearbox and a propeller, …
T700 Turboshaft Engine - GE Aerospace
The engine is an advanced, powerful, fully modular, and affordable turboshaft engine ready for a diverse portfolio of rotorcraft and fixed-wing applications. The T700 delivers 2,000 shp with …
Understanding Turboshaft Engines: Key Features and …
Apr 7, 2024 · Turboshaft engines are pivotal in aviation, offering efficiency and power for various applications. Unlike traditional jet engines, they convert thermal energy into mechanical work, …