turbo - meaning and definition. What is turbo
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What (who) is turbo - definition

FORCED INDUCTION DEVICE FOR INTERNAL COMBUSTION ENGINES
Turbo; Turbo-charger; Turbo-supercharger; Turbocharged; Turbo charger; Turbosupercharger; Turbo engine; Turbo (cars); Turbocharge; Turbo lag; Turbochargers; Turbocharging; Turbo machine; Turbo-charged; Electronically assisted turbocharging; A/R ratio; Turbocompressor; Turbo charge; Turbo charged; Turbosupercharging; Boost (automotive engineering); Twin scroll turbo; Turbo injection engine; Turbosupercharged; Turbocharged Vehicles; Twin-scroll turbo; Twin-scroll turbocharger; Turbo charging; Sequential turbocharger; Intake charger; Twin scroll; Turbo flutter; Turbocharger boost
  • A medium-sized six-cylinder marine diesel-engine, with turbocharger and exhaust in the foreground
  • Garrett]] GT30 with the cover removed
  • Garrett]] GT30 with the cover removed
  • Schematic of a typical turbo petrol engine
  • Cut-away view turbocharger (turbine section on the left, compressor section on the right)
  • Cutaway view of a [[Porsche]] variable-geometry turbocharger

Turbo         
·noun Any one of numerous marine gastropods of the genus Turbo or family Turbinidae, usually having a turbinate shell, pearly on the inside, and a calcareous operculum.
turbo         
['t?:b??]
¦ noun (plural turbos) short for turbocharger.
turbo         
(turbos)
A turbo is a fan in the engine of a car or plane that improves its performance by using exhaust gases to blow fuel vapour into the engine.
N-COUNT

Wikipedia

Turbocharger

In an internal combustion engine, a turbocharger (often called a turbo) is a forced induction device that is powered by the flow of exhaust gases. It uses this energy to compress the intake gas, forcing more air into the engine in order to produce more power for a given displacement.

The history of turbochargers began in 1878 with the invention of mechanically-powered superchargers. The birth of the turbocharger is often attributed to Swiss engineer Alfred Büchi's 1905 patent, with the first prototype completed in 1915. Turbochargers were first used commercially in 1925, increasing the power output of diesel engines in two large passenger ships. During World War II, they were used in various aircraft engines, and Swiss truck manufacturer Saurer pioneered their use in the 1930s.

Turbochargers for passenger cars gained popularity in the 1980s, with the first models being the Chevrolet Corvair Monza and Oldsmobile Jetfire in 1962. The main components of a turbocharger include a turbine, compressor, and center housing hub rotating assembly. The turbine extracts kinetic energy from exhaust gases to power the compressor, which pressurizes intake air before entering the engine.

Twin-scroll turbochargers use two separate exhaust gas inlets to optimize exhaust gas flow, while variable-geometry turbochargers adjust the turbine housing geometry to maintain the optimum aspect ratio. Electrically-assisted turbochargers combine exhaust-powered turbines with electric motors to reduce turbo lag. The center hub rotating assembly connects the turbine to the compressor and may be water-cooled to protect the turbocharger's lubricating oil from overheating.

Turbochargers utilize additional components such as intercoolers, water injection, wastegates, and blowoff valves to improve engine performance. Turbo lag and boost threshold affect power delivery, and various methods can be employed to reduce turbo lag. Multiple turbochargers can be used to address these issues, with twin-turbo being the most common arrangement. Turbochargers differ from superchargers, as they are powered by exhaust gas instead of being mechanically driven by the engine. Twincharging combines both systems to mitigate their weaknesses. Turbochargers are used in various applications, including petrol and diesel engines, with increasing adoption in petrol engines. Safety concerns include turbocharger failures and high exhaust temperatures, which can cause car fires.

The current categorisation is that a turbocharger is powered by the kinetic energy of the exhaust gases, whereas a supercharger is mechanically powered (usually by a belt from the engine's crankshaft). However, up until the mid-20th century, a turbocharger was called a "turbosupercharger" and was considered a type of supercharger.

Examples of use of turbo
1. Despite the fact that Porsche has managed to give the new Turbo S even better drive performance than the regular Turbo model (500 hp / 368 kW), the fuel efficiency figures for the Turbo S are exactly the same as those for the Cayenne Turbo (as per the calculation methods stipulated under the New European Operating Cycle — NEFZ, Sharbatly said.
2. Crew cap4 by 4 Duremax Turbo Diesel/LT Black ,Loaded ,top of the line.
3. Britains first turbo–jet bomber, the Canberra, a design by W.
4. Once in it, however, I found it more ominous, like a mist moving at turbo speed.
5. But Medeiros shows they may soon have a turbo–fan engine for ships and planes.