Everything about Turboshaft totally explained
A
turboshaft engine is a form of
gas turbine which is optimized to produce
shaft power, rather than
jet thrust. In principle a turboshaft engine is similar to a
turbojet, except the former features additional turbine expansion to extract heat energy from the exhaust and convert it into output shaft power. Ideally there should be little residual thrust energy in the exhaust and the power turbine should be free to run at whatever speed the load demands.
Overview
The general layout of a turboshaft is similar to that of a
turboprop, the main difference being the latter produces some residual propulsion thrust to supplement that produced by the shaft driven propeller. Another difference is that with a turboshaft the main gearbox is part of the vehicle (for example helicopter rotor reduction gearbox), not the engine. Virtually all turboshafts have a "
free" power turbine, although this is also generally true for modern turboprop engines. At a given power output, compared to the equivalent piston engine, a turboshaft is extremely compact and, consequently, lightweight.
Uses
The name turboshaft is most commonly applied to engines driving:
History
The first true turboshaft engine was built by the
French engine firm
Turbomeca, led by the founder,
Joseph Szydlowski. In
1948 they built the first French-designed turbine engine, the 100shp 782. In
1950 this work was used to develop the larger 280shp
Artouste, which was widely used on the
Aérospatiale Alouette II and other helicopters.
Modern engines
Today almost all engines are built so that power-take-off is independent of engine speed, using the free turbine stage. This has two advantages:
It allows a helicopter rotor or propeller to spin at any speed instead of being geared directly to the compressor turbine.
It allows the engine to be split into two sections, the "hot section" containing the majority of the engine, and the separate power-take-off, allowing the hot-section to be removed for easier maintenance.
This leads to slightly larger engines—compare the Pratt & Whitney PT-6 and similar models from Garrett Systems, for instance—but for the speed ranges served by these engines it's considered to be unimportant. Today practically all smaller turbine engines come in both turboprop and turboshaft versions, differing primarily in their accessory systems.Further Information
Get more info on 'Turboshaft'.
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