Geneva preview: Fiat Two-Cylinder 85 HP TWIN-AIR Engine  

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The new two-cylinder engine family made by FPT - Fiat Powertrain Technologies called TWIN-AIR will be making its debut at the Geneva Motor Show. This is a brand-new concept on the worldwide auto scene and confirms the leadership of the Fiat Group in this field.

Using next-generation technology, the new engine implements the revolutionary Multiair system combined with special fluid dynamics optimised for the best fuel efficiency. Furthermore, by taking the concept of downsizing to the extreme and masterly tuning the basic mechanics, the new family - delivering from 65 to 105 HP - emits 30% less CO2 than an engine of equal performance.

Visitors to the show will admire the first application of this new engines on a 500, the first Fiat model on which it will be introduced next July. The car is equipped with a two-cylinder turbo 85 HP engine which has the lowest CO2 emission levels for a petrol engine (up to 95 g/km) without compromising performance and driving pleasure. Compared with the two engine versions available today, it provides excellent performance with a major fuel reduction: the new turbo two-cylinder 85 HP engine consumes down to 15% less fuel and has 25% more performance than the 1.2 8v, while fuel consumption drops to a remarkable 30% with respect to the 1.4 16v with comparable performance and the same high driving pleasure.

Furthermore, with respect to a four-cylinder of equal performance and medium displacement, the new engine is significantly shorter (-23%) and lighter (-10%), opening the way to interesting further developments, such as methane fuel feed or hybrid technology combinations, again under the sign of greater eco-friendliness. In particular, a methane version of the TWIN-AIR will be available soon providing a further CO2 emission reduction: this is possible by adopting a pair of special injectors in addition to the petrol injectors on the intake manifold rails. Improving these fuel saving results using internal combustion engines will be difficult and alternative technologies will need to be developed. The combination of traditional engines and electric motors appears particularly promising. Precisely because of its small size, the TWIN-AIR is well suited to be coupled with an electric motor, and in general with a device arranged between engine and gearbox for recovering and storing the energy which is normally wasted during braking.

Nothing short of an engineering gem, the two-cylinder implements the revolutionary Multiair technology developed and patented by FPT - Fiat Powertrain Technologies, which was introduced on FIRE engines last year for the first time. The heart of Multiair is a new electro-hydraulic valve management system that reduces fuel consumption by controlling air directly via the inlet valves (without using the throttle). Multiair reduces polluting emissions (thanks to improved combustion control) and also considerably improves performance by boosting driveability with respect to a traditional petrol engine of equal displacement.

Furthermore, the new TWIN-AIR engine takes the concept of downsizing to the extreme: combining a small displacement engine with a next-generation turbocharger provides performance comparable to - or even better than - that of a larger engine but with less fuel consumption and lower emissions. And more: the turbo significantly increases the maximum torque, making it available at a very low rpm, with the result of offering greater flexibility and an unrivalled promptness of response compared to conventional aspirated engines. All this comes with a simple build that benefits strength and reliability.

Last but not least, the new engine was painstakingly optimised and tuned. For instance, the basic two-cylinder architecture - combined with the low friction of internal parts - ranks this engine best in the "friction" class in the world. Furthermore, computer simulations have been used to identify the best possible standard displacement in terms of thermo-dynamic efficiency, and the best fluid dynamic configuration to optimise and get the best out of the MultiAir system. Finally, special attention has been placed on the NVH (Noise, vibration, and harshness) aspect to ensure vibration performance at least equivalent to that of a four-cylinder, with equal performance but with a characteristic sound. For this purpose, a balancing countershaft was used to maintain optimal vibration levels in all operating conditions of the engine, from the idling speed to top power.
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