The Fiat Group has launched MultiAir, a breakthrough in petrol engine design that is claimed to dramatically cut fuel consumption, significantly boost power and torque, and reduce carbon dioxide emissions by between 10 and 25 per cent. Some other engine pollutants are said to be reduced by up to 60 per cent. The technology utilises a simple technique that results in a variable relationship between the camshaft lobe shape and the opening of the engine valves. In more detail, technology benefits MultiAir are:
MultiAir is applicable to all internal combustion engines, regardless of the fuel used. It can be adapted for diesel engines to reduce their NOx emissions and make particulate filters significantly more effective. The first new engine equipped with MultiAir is the 16-valve 1.4 litre family of naturally aspirated and turbocharged engines. Its second application will be as an integral part of a new two cylinder engine family. Variable Valve Control SystemsThe breakthrough is based on direct air charge metering at the cylinder inlet ports by means of advanced electronic actuation and control of the intake valves, while maintaining a constant natural upstream pressure. Research on this key technology started in the ’80s, when engine electronic control reached the stage of a mature technology. At the outset, world-wide research efforts were focused on the electromagnetic actuation concept, where valve opening and closing is obtained by alternatively energising upper and lower magnets with an armature connected to the valve. This actuating principle had the intrinsic appeal of maximum flexibility and dynamic response in valve control, but despite a decade of significant development efforts, the main drawbacks of the concept – it being intrinsically not fail-safe and its high energy absorption – could not be fully overcome. At this point most automotive companies fell back on the development of the simpler, robust and well-known electromechanical concepts, based on valve lift variation through dedicated mechanisms, usually combined with camshaft phasers to allow control of both valve lift and phase. The main limitation of these systems is low flexibility in valve opening schedules and a much lower dynamic response; for example, all the cylinders of an engine bank are actuated simultaneously, thereby excluding any cylinder-selective actions. Many similar electromechanical valve control systems were subsequently introduced over the past decade. In the mid ’90s, Fiat Group research efforts switched to electro-hydraulic actuation. The goal was to reach the desired flexibility of air mass control on a cylinder-by-cylinder and stroke-by-stroke basis. The electro-hydraulic variable valve actuation technology developed by Fiat was selected for its relative simplicity, low power requirements, intrinsic fail-safe nature and low cost potential. How MultiAir WorksThe operating principle of the system, applied to intake valves, is the following: a piston, moved by a mechanical intake camshaft, is connected to the intake valve through a hydraulic chamber, which is controlled by a normally open on/off solenoid valve. When the solenoid valve is closed, the oil in the hydraulic chamber behaves like a solid body and transmits to the intake valves the lift schedule imposed by the mechanical intake camshaft. When the solenoid valve is open, the hydraulic chamber and the intake valves are de-coupled; the intake valves do not follow the intake camshaft anymore and close under the valve spring action. To ensure a soft and regular landing phase in any engine operating conditions, the final part of the valve closing stroke is controlled by a dedicated hydraulic brake. Through solenoid valve opening and closing time control, a wide range of optimum intake valve opening schedules can be easily obtained.
The last two actuation modes can be combined in the same intake stroke, generating a so-called Multilift mode that enhances turbulence and combustion rate at very low loads. Further Potential of MultiAir TechnologyMultiAir technology will pave the way to further technological evolutions for petrol engines:
MultiAir Electronic Valve Control technology can be applied to all internal combustion engines, whatever fuel they burn. MultiAir, initially developed for spark ignition engines burning light fuel ranging from petrol to natural gas and hydrogen, also has wide potential for diesel engine emissions reduction. Intrinsic NOx reduction of up to 60 per cent can be obtained by internal exhaust gas recirculation (iEGR) realised with intake valves reopening during the exhaust stroke, while optimal valve control strategies during cold start and warm-up bring up to 40 per cent HC and CO reduction of emissions. Further substantial reductions come from the more efficient management and regeneration of the diesel particulate filter and NOx storage catalyst, thanks to the highly dynamic air mass flow control during transient engine operation. Did you enjoy this article? Please consider supporting AutoSpeed with a small contribution. More Info...
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