Chicago Auto Show 2010

KIA RAY CONCEPT: Kia introcuded the Ray at the 2010 Chicago Auto Show. Ray is a four-seat design concept that's based on the Forte platform. Designed with lightweight and recycled materials, as well as hexagonal roof-top solar cells embedded in the glass roof panel that power extra lighting or climate control systems, the Kia Ray is the fifth vehicle from the Irvine Calif.-based Kia Design Center America (KDCA) to be revealed in the last year.

The stylish, aerodynamic Ray combines design and engineering for maximum efficiency, incorporating clean, flush surfaces minimizing any unneeded edges, a flowing profile and pronounced rear shoulder ending in a slightly high deck lid for reduced drag, touch-screen controls, drive-by-wire steering, "cool-glazing" solar glass and a lithium-polymer battery - all possible indicators of future technology from Kia. As a plug-in hybrid, Ray is designed to reach driving distances of more than 50 miles using its electric motor on a single charge, and has a fuel economy rating of more than 202 miles per gallon, and has a total range of 746 miles.

The Ray Concept is designed to be powered by an all-aluminum 153-horsepower Gasoline Direct Injected (GDI) 1.4-liter engine mated to a permanently-engaged fixed ratio Continuously Variable Transmission (CVT), used in combination with a 78kw electric motor. Depending on driving conditions, power is sent to the wheels from the gasoline engine, the electric motor, or both together. The Ray concept is front-wheel drive with a four-wheel independent suspension.

Furthering EcoDynamics innovation, the Ray concept's advanced system is equipped with an engine-power saving alternator management system and a toggle gear-shift up/down indicator to encourage economical driving. Custom-designed low-rolling resistance with a hexagon pattern, narrow 20-inch (195/50R20) tires also improve Ray's efficiency.

The Ray employs new "cool car" technology, including nano-laminate films and cool-glazing materials applied to the concept to dramatically reduce solar heat and demonstrate how keeping the interior cool will reduce air conditioning loads and greenhouse emissions. When the vehicle is parked in the sun, the solar cells provide a trickle charge that helps operate a cooling fan to reduce interior temperatures.