Hyundai Develops New Fuel-Saving Kappa Engine

  • Innovative technologies cut weight and friction to boost fuel economy
  • 5.0L/100km (47 mpg) in the European combined test cycle
  • Lowest CO2 in its class: just 119g/km
  • Lightest dry weight in its class: just 82.4kg
  • To be installed on Hyundai i10, i20 A- and B-segment cars

SEOUL, Korea, June 23, 2008 - In an era of soaring gasoline prices, Hyundai Motor Co. is helping frugal-minded drivers meet the challenge of affordable transportation with its newly developed Kappa engine.

"The world is thinking small like never before: Smaller fuel consumption, smaller CO2 footprint, smaller overall emissions. Today small is beautiful and Hyundai is ready to answer the call to small with our new Kappa inline four cylinder engine," said President and Chief Technology Officer Lee Hyun-Soon.

Hyundai's i10 minicar with a 1.25 liter Kappa engine will deliver a fuel economy rating of 5.0L/100km (47 mpg) in the European combined test cycle--for best in class performance. And Kappa runs cleaner than the competition: In the European combined test cycle, an i10 equipped with the Kappa engine produces just 119g/km of CO2—far less than the Fiat Panda, Fiat Punto, Opel Corsa, Renault Twingo and Nissan Micra.

Kappa also impresses with it high specific torque rating of 9.6kg.m per liter--best in class--for excellent drivability in stop-and-go city traffic. Kappa will also be installed in Hyundai's i20 due to be revealed at this autumn's Paris Auto Show.

Developed over a period of 48 months at a cost of US$421 million, the Kappa project harnessed all of Hyundai's engineering know-how in the quest to squeeze more energy out of each droplet of fuel while achieving EURO-4 emissions compliancy.



Hyundai Develops New Fuel-Saving Kappa Engine - inlinetitle



Kappa puts out 77.8ps@6000rpm--very competitive within the European A-segment--but peak torque is rated best-in-class at 12.0kg.m per 4000rpm--ensuring outstanding acceleration and driving enjoyment.

Kappa adopts a number of weight and friction reducing innovations to achieve its impressive fuel economy.

First, the engine block is made from high pressure die-cast aluminum which results in considerable weight savings: Weighing a mere 82.4kg (1.2 with manual gearbox)—Kappa is the lightest in its class among leading European and Japanese-made engines (using the same measuring criteria across the competitive set).



Hyundai Develops New Fuel-Saving Kappa Engine - inlinetitle

Kappa’s main block features a ladder frame construction for superior structural stiffness while its cylinders are fitted with cast-iron liners for improved abrasion durability. Additional weight was shaved off by integrating the engine support bracket with the timing chain cover.

But probably the most significant engineering innovation is Kappa's offset crankshaft, an engineering concept first adopted in the Gamma engine introduced last year.

Unlike a conventional engine where the centreline of the cylinder bore is in perfect vertical alignment with the rotating axis of the crankshaft, the Kappa’s centreline is offset by a small distance. By creating this offset distance, engineers have succeeded in minimizing the side force created by the pistons. The net effect is an improvement in fuel consumption and a reduction in noise, vibration and harshness.



Hyundai Develops New Fuel-Saving Kappa Engine - inlinetitle

Engineers also devised an innovative piston concept to reduce piston mass. The shape of the piston skirt was optimized to reduce its size while the compression height of the piston was also reduced, resulting in precious weight savings.

The optimized piston skirt is also treated with Molybdenum Disulfide (MoS2), a special anti-friction coating.



Hyundai Develops New Fuel-Saving Kappa Engine - inlinetitle

A highly sophisticated process of Physical Vapor Deposition (PVD) is used to apply an ultra-thin layer of chromium nitride (CrN) to the piston's oil ring. CrN ensures high wear resistance and a low friction coefficient. CrN-coated piston rings using PVD is an innovative technology borrowed from the Tau V8 engine that Hyundai introduced earlier this year.



Hyundai Develops New Fuel-Saving Kappa Engine - inlinetitle

Friction between the oil ring and cylinder wall has been further minimized by reducing the oil ring tension. The smaller mass and special surface treatment of the piston skirt and oil rings yielded additional savings in fuel consumption.

Kappa is the first Hyundai engine to be fitted with an accessory drive belt which does not require a mechanical auto-tensioning adjustment device, reducing the hardware and further lowering weight and cost. Because it is designed to maintain an ideal tension setting, the belt runs quieter and with proper preventative maintenance and care, the belt will last 100,000 miles.



Hyundai Develops New Fuel-Saving Kappa Engine - inlinetitle

Kappa uses a new, longer reach spark plug which enabled engineers to enlarge the size of the water jacket to promote more efficient engine cooling around the critically important spark plug and exhaust port area. Cooler operation also prevents engine knocking.

The long reach spark plug (M12 thread) also enabled engineers to enlarge the valve diameter for increased airflow and combustion efficiency.



Hyundai Develops New Fuel-Saving Kappa Engine - inlinetitle



Hyundai Develops New Fuel-Saving Kappa Engine - inlinetitle

Kappa’s valvetrain features a number of innovations: roller swing arm lowers friction in the valvetrain thereby helping improve fuel efficiency. Hydraulic lash adjusters ensure clearances between the valve stem and roller swing arm are always perfect: zero, eliminating valve tapping noise.



Hyundai Develops New Fuel-Saving Kappa Engine - inlinetitle

A new valve spring features an innovative beehive shape and smaller retainer. Its reduced weight and spring load help lower friction and improve fuel economy.

Kappa's valvetrain is driven by a silent-type steel timing chain that replaces roller-type timing chain: The optimized design greatly reduces impact forces and noise when the gear tooth and chain engage. Moreover, the chain requires absolutely no maintenance.



Hyundai Develops New Fuel-Saving Kappa Engine - inlinetitle

A lightweight, heat-resistant engineering plastic was specified for the intake manifold. This reduces cost and weight and yields an overall performance improvement.

The fuel delivery pipe assembly is a returnless type (to eliminate evaporative fuel emissions) and is made of SUS (steel use stainless) with an innovative inner structure for the reduction of pulsation noise.

Kappa is controlled by two 16-bit 32Mhz microprocessors for digitally precise control of the ignition timing, idle speed, knocking and emissions.

Kappa is the eleventh in its series of gasoline engines to be independently developed with Hyundai technology. The development story began in 1991 with the introduction of Hyundai's first proprietary engine, the four-cylinder Alpha (see list below). Kappa will be manufactured in two variants 1.25 litres (EU) and 1.2 litres (Indian market only) at the company's manufacturing subsidiary in Chennai, India, where annual output is forecast to reach 300,000 units per year. The newly constructed Kappa engine plant is scheduled to begin production in mid-July.

Kappa 1.2

Kappa 1.25

India

General

Europe

Displacement (?)

1,197

1,248

Bore × Stroke (?)

71×75.6

71×78.8

Compression Ratio

10.5

10.5

Max Power (ps/rpm)

80/5,200

77/6,000

77.8/6,000

Max Torque (kg·m/rpm)

11.4/4,000

11.8/4,000

12.0/4,000

Cylinder Block / Head

Aluminum/Aluminum

Cam Type

DOHC

Valve System

16-Valve Swing Arm Type

Ignition System

Distributorless (2X2 Coil)

Intake System

NA (Natural Aspirated)

Fuel System

RLFS (Returnless Fuel System)

MPI (Multi-Point Injection)

Emission System

WCC



Hyundai Develops New Fuel-Saving Kappa Engine - inlinetitle

Gasoline Engines Developed by Hyundai

2008 Kappa ? I4

Tau t V8
2006 Gamma ? I4
2004 Lambda ? V6
Theta ? I4
1999 Omega O GDI V8
1998 Delta d V6
Sigma S V6
1997 Epsilon e I4
1995 Beta ß I4
1991 Alpha a I4