MultiAir

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Fiat 875 cc two cylinder TwinAir engine featuring Multiair technology

Multiair is a hydraulically-actuated variable valve timing (VVT) engine technology that enables "cylinder by cylinder, stroke by stroke"[1] control of intake air directly via the inlet valves (without using the throttle) in gasoline engines. Multiair was developed by Fiat Powertrain Technologies — and was licensed to the Schaeffler Group in 2001, which also markets the system as Uniair.[2]

FCA, at the time Fiat S.p.A., launched Multiair in 2009 employing a proprietary electro-hydraulic system to precisely control air intake without a throttle valve,[3] in order to increase engine power and torque, reduce fuel consumption, reduce emissions — and improve engine operation — offering "a more controllable flow of air during the combustion cycle in comparison with mechanical VVT systems."[4] The technology allows engines to be lighter and smaller while reducing pumping losses — and can be adapted to existing engines by replacing the camshaft with the Multiair system.

Compatible with both naturally aspirated and forced-induction engines, Multiair technology was patented by Fiat in 2002 and was launched at the 2009 Geneva Motor Show in the Alfa Romeo MiTo.[5] Marketed prominently in Fiat's FIRE engines, e.g., in the Fiat 5002007, Multiair engines for global markets are manufactured in Termoli, Italy at the Fiat Powertrain Technologies factory and at the FCA's Dundee Engine Plant (formerly a plant of the Global Engine Manufacturing Alliance, GEMA), with critical systems manufactured and assembled by Schaeffler Group.[2]

In 2010, the 1.4L Multiair engine won the "International Engine of the Year"[6] as well as Popular Science's Best of What's New.[1] The Fiat TwinAir 875 cc two-cylinder engine, also using Multiair technology, was named Best New Engine of 2011.[7]

Technology

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How it works
"The MultiAir system is elegantly simple. An electrohydraulic actuator—a high-response, electronically activated solenoid—controls the pressure applied to hydraulic fluid (engine oil drawn from the sump) that fills a thin passageway that connects the intake valves and the camshaft. The solenoid valve regulates the amount of oil that is pumped by the cam action either to the valve or a bypass reservoir.

When pressurized, the hydraulic line behaves like a solid body and transmits the lift schedule imparted by intake cam directly to the intake valve. When the solenoid is disengaged a spring takes over valve actuation duties.

This electrohydraulic link allows independent operation of the two components, which enables near real-time control over the valve lift profiles, said Bernard. Whereas a closed solenoid transmits the pressure generated by the camshaft’s intake profile to the valve in the normal fashion, an open solenoid breaks the hydraulic link between cam and valve, decoupling their operations."[8]
Society of Automotive Engineering, 2010

For variable valve timing, competing technologies (e.g., Honda's VTEC and BMW's VANOS) use electromechanical concepts, acheiving valve lift variation via dedicated mechanisms, usually combined with camshaft phasers to allow control of both valve lift and phase. In contrast, Multiair uses managed hydraulic fluid to provide variable valve control.

Control of a Multiair engine's intake valves works via a valve tappet (cam follower), moved by a mechanical intake cam, which is connected to the intake valve through a hydraulic chamber, controlled by a normally open on/off solenoid valve.[9] The system allows optimum timing of intake valve operation.

MultiAir technology can increase power (up to 10%) and torque (up to 15%), as well as reduce consumption levels (up to 10%) and emissions of CO2 (up to 10%), particulates (up to 40%) and NOx (up to 60%)[3][5] when compared to a traditional petrol engine. The system also provides smoother cold weather operation, more even torque delivery and no engine shake at shut-off.[10]

An example of the gains offered by the MultiAir technology can be seen in the current Alfa Romeo MiTo: the 1.4 TB engine, without MultiAir, can produce 155 PS (114 kW; 153 hp) and 230 N·m (170 lb·ft) whilst using 6.5 litres per 100 kilometres (43 mpg-imp; 36 mpg-US). With MultiAir, the same engine develops 170 PS (125 kW; 168 hp) and 250 N·m (180 lb·ft), while consuming 6.0 L/100 km (47 mpg-imp; 39 mpg-US).

Development

Research on critical related technologies, started in the ’80s, when engine electronic control reached reached market maturity. Multiair was developed over a ten year period at Fiat's Centro Ricerche Fiat (CRF), in Orbassano, outside Turin[11] After a five year delay during Fiat's 2000-2005 partnership with General Motors,[12] when GM was not interested in the technology, Fiat license the system to Shaeffler Group in 2001.[12]

The vice president of Fiat Powertrain Research & Development Rinaldo Rinolfi led the team who developed the technology, at a cost of over $100 million.[13]

Other systems

More advanced, fully camless valvetrain systems are under development, but are not yet production-ready.[14] The Valvetronic system used by BMW allows the valve timing and lift to be varied but not the cam profile. The ability to vary the latter is characteristic of camless and the Multiair systems.

Applications

See also

Notes

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External links

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