subject: New petrol engine from Kia [print this page] New petrol engine from Kia New petrol engine from Kia
Making its international debut on Kia's Geneva Motor Show stand alongside the new Picanto and Rio models is an all-new turbo charged version of Kia's popular Kappa' petrol engine, which promises an appealing blend of performance and economy.
The innovative 998 cc engine is Kia's first three-cylinder unit fitted with a turbocharger to deliver impressive performance of 110ps for its capacity, while retaining the key fuel economy benefits of a small displacement engine.
Carefully tuned by Kia's engineers, the new unit delivers its maximum torque of 137 Nm from just 1,500 rpm up to 4,500 rpm, for excellent real-world' driveability, and the turbine design has also been optimised to ensure smooth and responsive operation at all engine speeds.
The new engine is expected to be fitted to Kia production vehicles from June 2012.
Painstaking attention to detail by Kia's engineers has resulted in a series of small but clever developments which all make their contribution to enhancing efficiency, while also reducing weight, complexity and cost, compared to Kia's normally-aspirated 1.0-litre Kappa unit itself already a highly-efficient engine.
A Diamond-Like Carbon (DLC) coating a material typically reserved for application in professional motorsport and high-performance motorcycle engines is applied to this Kappa's tappets to reduce friction, and thereby improve efficiency. This improvement is augmented by other changes, including the use of progressive rate beehive' valve springs, an optimised Continuous Variable Valve Timing programme, low friction piston rings and an off-set crankshaft centre to reduce the horizontal force acting on the piston head, and therefore cut power loss. In total the changes result in an 8.8% fuel economy improvement, while enabling the engine to also deliver an increase in power.
Weight reductions and packaging improvements have also been achieved through the use of an aluminium block with a cast iron liner, by integrating the cylinder head and air filter and the turbine housing within the exhaust manifold and by integrating the engine support bracket with the timing chain cover.
