Underneath its sleek body, Saab’s concept hides a 1.4-liter BioPower turbo engine partnered by GM’s next-generation Hybrid system. The 1.4-liter engine generates 200 hp on E85 and an even more impressive 280 Nm (
According to Saab, the 9-X BioHybrid can go from nought to 100 km/h (62 mph) in 7.9 sec on E85 and 8.3 sec when using regular gasoline. As for fuel consumption, the concepts need a mere 4.9 lt of gasoline or 6.4 lt of E85 for every 100 km (48 and 36.8 MPG respectively). –More details and pictures after the jump
Saab 9-X BioHybrid:
Boosting Efficiency in Compact Design and Performance
The Saab 9-X BioHybrid concept is a vivid vision of what a future compact car from Saab could look like. It is designed to reflect the priorities of youthful customers who seek progressive looks, responsible performance and high-tech communications, all in a sporty, fun-to-drive package.
Exploring design themes from Saab’s award-winning Aero X and earlier 9X concepts, the 9-X BioHybrid also demonstrates the potential for ultra-efficient power from a 200 hp (147 kW), 1.4-liter BioPower turbo engine backed by GM’s next-generation Hybrid system. Projected combined cycle CO2 emissions of just 105 g/km on E85 fuel are testimony to the promise of this package (see separate release for details).
The interior showcases an entirely new expression of Saab’s driver-focused cockpit design, together with innovative, seamless connectivity for personal nomadic devices and a rear cargo deck with a ‘low friction’ loading system.
“This car is all about efficiency in design and performance,” says Anthony Lo, Director of Advanced Design at General Motors Europe, who led the 9-X BioHybrid design team in co-operation with the Saab Brand Center in Sweden.
With its ‘turbine’ wheels placed at all four corners, minimal bodywork overhangs and an extended roof line, the proportions of the three-door Saab 9-X BioHybrid bring a dynamic, new dimension to conventional compact ‘hatchback’ looks.
The smooth ‘fuselage’ bodywork, now without any visible handles or door mirrors, the bold ‘wraparound’ window graphic and deep front grille are all themes inspired by the Aero X coupé concept shown at Geneva two years ago.
The car’s distinctive ‘shooting brake’ silhouette and rear functionality are developed from the 9X multi-role concept shown at Frankfurt in 2001. “You could say we designed this car from back to front, “says Lo. “The shape of the 9X is right for a car of this size, and the longer roof line helps the aerodynamics as well as providing more rear headroom and interior space.”
Echoing Saab’s roots in aircraft design, the 9-X BioHybrid also explores the potential for using active aerodynamics to reduce drag – and fuel consumption – at cruising speeds. Above 70 kph (
The four-seater cabin introduces an entirely new execution of Saab’s driver-focused cockpit design. The central, floor-mounted console, with its angled controls and displays, is now eliminated. Instead, the driver- focused layout incorporates a main instrument panel that sweeps out from the top of the door moulding, arching across the driver. The embedded 3-D graphics appear to be ‘frozen’ in ice, continuing a Scandinavian design theme first seen in the Aero X.
Reflecting the needs of youthful customers, who expect easy access to multi-media both inside and outside the car, Saab has co-operated with Sony Ericsson in providing seamless in-car connectivity for a range of nomadic devices. The result is a wireless interface for streaming data, entertainment and satellite navigation functions for display and use. The interface also allows the simultaneous use of multiple devices when passengers are in the car.
At the rear, the cargo deck features an electrically-powered slide-out floor, which is activated when the bottom half of the split tailgate drops down The floor, and the back of the folding rear seats, is covered by ‘high friction’ rubber carpeting, which ‘grips’ items and holds them securely in place. For easy loading and unloading, aluminum bars automatically rise up and down as the tailgate is opened and closed.
The treatment of light is an important part of Scandinavian design and this is evident in the use of variable, white ambient lighting inside the cabin. The level of suffused illumination can be changed in intensity from bright, cold to warm and soft. It’s a personalized feature that could even be programmed, for example, to reflect the pattern of the changing seasons
“This car shows how our concept work can be carried forward into a compact format,” adds Anthony Lo. “It has a number of features which we will be developing further, such as the new driver-focused design theme, the importance of clean, uncluttered surfaces and the easy, seamless connectivity inside the car.”
Technical Specifications
BioPower Engine:
Transversely-mounted, front wheel drive
1398 cc. Four cylinders Bore/stroke: 73.4/
DOHC, chain-driven. Four valves per cylinder.
Forged steel crankshaft, steel connecting rods. Aluminum pistons, oil spray cooled.
Direct Injection with centrally-mounted injectors. VVT, inlet and exhaust
Sodium-filled exhaust valves
Compression Ratio: 10.2: 1
Intercooled turbocharger. Max. Boost Pressure: 1.6 bar
Dual-mass flywheel. Saab engine management
Max power (E85):......... 200 hp (147 kW) @ 5000 rpm.
Max.torque (E85):........ 280 Nm (
Max power (gasoline):... 170 hp (125 kW) @ 5200 rpm.
Max.torque (gasoline):.. 230 Nm (
Hybrid System
Electric motor/generator with lithium ion battery pack.
Electric power boost, regenerative braking, fuel cut-off, automatic engine re-start
Transmission:
6-spd manual gearbox, automated clutch, sequential gear selection, steering wheel controls
Suspension:
Front: Damper/coil struts, aluminum lower A-arm. Anti-roll bar.
Rear: Torsion beam, two trailing links, coil springs and dampers. Anti-roll bar
Steering:
Rack and pinion, Electrical power assistance.
Wheels, Tires:
21inch, 245/35R21
Brakes:
Hydraulic, dual circuit, vacuum booster. Discs:
Performance Data
(projected figures)
0 -
8.3 secs (gasoline)
80
11.2 secs (gasoline)
Top Speed, 6th gear:
Fuel consumption (combined cycle): 6.4 l/100km (E85)
4.9 l/100km (gasoline)
CO2 emissions 105 g/km (E85)
117 g/km (gasoline)