Twin-turbo (not to be confused with a twincharger setup, which is a combination of a

supercharger In an internal combustion engine, a supercharger compresses the intake gas, forcing more air into the engine in order to produce more power for a given displacement. The current categorisation is that a supercharger is a form of forced indu ...

and a turbocharger) refers to an

engine An engine or motor is a machine designed to convert one or more forms of energy into mechanical energy. Available energy sources include potential energy (e.g. energy of the Earth's gravitational field as exploited in hydroelectric power ...

in which two

turbochargers 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 p ...

work in tandem to compress the intake fuel/air mixture (or intake air, in the case of a direct-injection

). The most common layout features two identical or mirrored turbochargers in parallel, each processing half of a V engine's produced exhaust through independent piping. The two turbochargers can either be matching or different sizes.

Types and combinations

There are three types of turbine setups used for twin-turbo setups: * Parallel * Sequential * Series These can be applied to any of the five types of compressor setups (which theoretically could have 15 different setups): * Compound Compressors * Staged Compound Compressors * Staged Sequential Compressors * Parallel Sequential Compressors * Parallel Compressors

Parallel

A parallel configuration refers to using two equally-sized turbochargers which each receive half of the

exhaust gases Exhaust gas or flue gas is emitted as a result of the combustion of fuels such as natural gas, gasoline (petrol), diesel fuel, fuel oil, biodiesel blends, or coal. According to the type of engine, it is discharged into the atmosphere through an ...

. Some designs combine the intake charge from each turbocharger into a single intake manifold, while others use a separate intake manifold for each turbocharger. Parallel configurations are well suited to V6 and V8 engines since each turbocharger can be assigned to one cylinder bank, reducing the amount of exhaust piping needed. In this case, each turbocharger is fed exhaust gases by a separate exhaust manifold. For four-cylinder engines and straight-six engines, both turbochargers can be mounted to a single exhaust manifold. The aim of using parallel twin-turbos is to reduce turbo lag by being able to use smaller turbochargers than if a single turbocharger was used for the engine. On engines with multiple cylinder banks (e.g. V engines and

flat engine A flat engine is a piston engine where the cylinders are located on either side of a central crankshaft. Flat engines are also known as horizontally opposed engines, however this is distinct from the less common opposed-piston engine design, ...

s) use of parallel twin-turbos can also simplify the exhaust system. The 1981-1994 Maserati Biturbo was the first production car to use twin-turbochargers. The Biturbo used a 90-degree SOHC V6 engine with one turbocharger per cylinder bank. Parallel configurations have also been used on engines with more than two turbochargers. One example is the 1991-1995

Bugatti EB110 The Bugatti EB 110 is a mid-engine sports car produced by Bugatti Automobili S.p.A. from 1991 until 2002, when the company was liquidated. It was the only production model made by Romano Artioli's Italian incarnation of Bugatti. History Deve ...

, which uses four turbochargers on its

V12 engine A V12 engine is a twelve-cylinder piston engine where two banks of six cylinders are arranged in a V configuration around a common crankshaft. V12 engines are more common than V10 engines. However, they are less common than V8 engines. The f ...

. The 2005-2015 Bugatti Veyron uses four turbochargers on its

W16 engine A W16 engine is a sixteen-cylinder piston engine with four banks of four cylinders in a W configuration. W16 engines are rarely produced, with the notable exception of the Volkswagen Group 8.0 WR16 engine, which has been used since 2005 in the ...

. In diesel powered applications, notable examples are

Volkswagen Volkswagen (),English: , . abbreviated as VW (), is a German Automotive industry, motor vehicle manufacturer headquartered in Wolfsburg, Lower Saxony, Germany. Founded in 1937 by the German Labour Front under the Nazi Party and revived into a ...

's V10 TDI which uses two

BorgWarner BorgWarner Inc. is an American automotive supplier headquartered in Auburn Hills, Michigan. The company maintains production facilities and technical systems at 93 sites (as of June 6, 2022) in 22 countries worldwide and has around 49,000 employ ...

turbochargers in a parallel layout and BMW's inline 6 B57 engine (B57D30O0, B57D30T0, B57D30S0), which is available in configurations of up to 4 turbochargers that operate in a double-series layout.

Sequential

Sequential turbocharging refer to a set-up in which the engine uses one turbocharger for lower engine speeds, and a second or both turbochargers at higher engine speeds. This system is intended to overcome the limitation of large turbochargers providing insufficient boost at low RPM. On the other hand, smaller turbos are effective at low RPM (when there is less kinetic energy present in the exhaust gases) but are unable to provide the quantity of compressed intake gases required at higher RPM. Therefore, sequential turbocharger systems provide a way to decrease turbo lag without compromising power output at high RPM. The system is arranged so that a small ("primary") turbocharger is active while the engine is operating at low RPM, which reduces the boost threshold (RPM at which effective boost is provided) and turbo lag. As RPM increases, a small amount of exhaust gas is fed to the larger ("secondary") turbocharger, to bring it up to operating speed. Then at high RPM, all of the exhaust gases are directed to the secondary turbocharger, so that it can provide the boost required by the engine at high RPM. The first production car to use sequential turbocharging was the 1986-1988

Porsche 959 The Porsche 959 is a sports car manufactured by German automobile manufacturer Porsche from 1986 to 1993, first as a Group B rally car and later as a road legal production car designed to satisfy FIA homologation regulations requiring at leas ...

, which used sequential twin-turbos on its flat-six engine. Sequential turbocharging can also be used with more than two turbochargers, such as in the 2012-2017 BMW N57S straight-six diesel engine, which uses three sequential turbos.

Series

Serial turbocharging is where the turbochargers are connected in series with the output of the first turbocharger then being further compressed by the second turbocharger and in some cases powering the larger turbine. A sequential turbo can also be of use to a system where the output pressure must be greater than can be provided by a single turbo, commonly called a compound twin-turbo system. In this case, multiple similarly sized turbochargers are used in sequence, but constantly operating. The first turbo boosts provides the initial compression (for example to three times the intake pressure). Subsequent turbos take the charge from the previous stage and compress it further (for example to an additional three times intake pressure, for a total boost of nine times atmospheric pressure). A downside of staged turbocharging is that it often leads to large amounts of turbo lag, therefore it is mostly used on piston engine aircraft which usually do not need to rapidly raise and lower engine speed. (and thus where turbo lag is not a primary design consideration), and where the intake pressure is quite low due to low atmospheric pressure at altitude, requiring a very high pressure ratio. High-performance diesel engines also sometimes use this configuration, since diesel engines do not suffer from pre-ignition issues and can therefore use high boost pressures. Series_compound_twin_turbo

Quad-turbo

Automobile manufacturers rarely use more than two turbochargers. Some exceptions are the triple-turbocharger system used by the 2012-2017 BMW N57S straight-six diesel engine, the quad-turbocharger system used by the V12 engine in the 1991-1995 Bugatti EB110 and the quad-turbocharger system used by the W16 engine in the 2005-2015 Bugatti Veyron and 2016-present Bugatti Chiron.

References

External links

http://mkiv.supras.org.nz/articles/twinturbosetups.htm{{Automotive engine , expanded Turbochargers