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Thread: Chevrolet Volt Concept

  1. #1
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    Chevrolet Volt Concept

    CHEVROLET VOLT CONCEPT’S SPIRITED DESIGN PROVES ENVIRONMENTALLY CONSCIOUS VEHICLES CAN OFFER EXCITING STYLING

    DETROIT – While the technologically advanced Chevrolet Volt has the capability to travel 40 miles on electricity alone, at first glance, the concept could easily be mistaken as simply a design statement.

    The Volt conveys an immediate message of agility and sophistication, with exterior proportions more commonly associated with classic sports cars. Twenty-one-inch wheels and sheer, taut surface relationships reiterate the statement. The Chevrolet Volt’s athletic design challenges the notion that an environmentally conscious vehicle can’t be beautiful and possess an aesthetic spirit that matches its driving characteristics.

    “We’ve leveraged our resources around the globe to develop the design aesthetic for the Volt,” said Ed Welburn, vice president, GM Global Design. “It was important that the design capture the face of Chevrolet as it’s recognized around the world.” Design and engineering collaboration between GM designers and GE Plastics, using unique material technology and design engineering support, helped achieve the Volt’s distinctive appearance. True to the heritage of its Chevrolet bowtie, the Volt’s exterior design suggests spirited performance and is wrapped in a stylish package, with classic Chevrolet performance cues that hint at both Camaro and Corvette.

    Inside, a host of current or near-term technologies and materials, combined with ingenious use of ambient light, creates an interior environment that’s light, airy and thoughtful.

    “First and foremost, this is an advanced technology vehicle that uses little or no fuel at all. But we didn’t see any reason why that should compromise its design,” said Anne Asensio, executive director, GM Design. Asensio led the design team that created the Volt concept, with designs solicited from GM’s studios around the world.

    “We wanted a size that connected with everyone, so we designed a small car,” said Asensio. “In the end, the interior design team from England inspired the final interior execution, and the exterior was the work of the Michigan advanced design team.

    “Our job was to design a vehicle people could easily imagine seeing on the road,” said Asensio. “It couldn’t be a ‘science project,’ because that’s not what this car is all about. It had to be realistic, executable and carry the essence of the Chevrolet brand.”

    Athletic, bold exterior


    Sized for an urban-centric lifestyle, the Volt concept sedan carries dimensions similar to a Chevrolet Cobalt, with an overall length of approximately 170 inches (4,318 mm), a height of 52.6 inches (1,336 mm) and a width of 70.5 inches (1,791 mm). However, the Volt’s proportions, dictated by the layout of its electrically driven powertrain system, make it distinctly different from its mainstream Cobalt sibling.

    “The configuration of the drive and energy components dictated we push the front wheels forward and outward to the corners,” said Bob Boniface, design director, GM Design, and lead exterior designer. “We wanted to keep the overall dimensions relatively small. This is an urban-centric car, so it needs to fit into small areas.”

    The Volt’s proportions, combined with large wheels, wide front and rear tracks (64 inches / 163 mm, front and rear) and a tight wheel-to-body relationship, enable a sporty, confident stance. Other key proportional highlights include a dash-to-axle length that positions the driver far rearward of the front wheels; large 21-inch by 7.5-inch wheels; short front and rear overhangs and departure angles that deliver a sense of taut, compact energy. Also, the offsets between the upper glass elements and tire planes (the glass is inboard of the face of the tires) contribute to the sedan’s balanced stance and enhance the vehicle’s dynamic static image, resulting in pure, athletic proportions.

    “What’s beautiful about the proportions is that when you think about some of the competitors out there, you tend to think of those vehicles as ‘the sensible shoe,’ “said Boniface. “People buy environmentally friendly cars because they feel it’s the right thing to do, not necessarily because of their looks or to make a fashion statement. But the Volt is different. It’s something one would buy because it is so compelling to look at, and the fact that it has the potential to never burn any gasoline – that’s just a bonus.”

    Transparent roof and beltline

    The Volt’s roof, side glass and beltline are constructed of GE Plastics transparent, glazed polycarbonate material that delivers the scratch resistance and gloss surface appearance of glass, combined with the formability of a plastic composite.

    As a result, the Volt provides the driver and occupants with exceptional visibility, enabling a “city lights” theme in which the outside world passes through to the interior of the vehicle. Also contributing to the visibility is a shouldered, tinted side glass – constructed of the same GE polycarbonate material – that enables a dual beltline.

    Additional exterior design elements

    In addition to the upper daylight opening and roof, key exterior panels are made with a GE Plastics composite, and each – in and of itself – is designed as an artful shape that could be displayed on its own. As a result, the exterior panels fit together like a well-crafted puzzle, with flowing surface-to-surface cut lines that bring a sophisticated composition and overall harmony to the Volt’s exterior appearance.

    The front door hinges enable enhanced entry/egress to the vehicle, as well as a graceful, forward-leaning door cut line. Milled from billets of stainless steel, the hinges serve as design elements, extending into the front quarter fenders and incorporating a plug-in recharging port access on both sides of the vehicle.

    The vehicle face – designed to carry a serious, confident appearance – is clearly Chevrolet, with a twin-port front grille, center-positioned bowtie and lower air intake. Horizontal headlamps with aluminum bezels deliver a jeweled appearance, leading to translucent light-emitting diode (LED) forward illumination elements.

    The underside of the vehicle consists of a flat, composite molded belly pan that is integrated with the fascias and rockers for a clean, uncluttered and finished appearance. The belly pan – which contributes significantly to the Volt’s 0.30 coefficient of drag – contributes to the sedan’s overall impression of refinement and demonstrates the design of the underbody was just as important as the upper body.
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  2. #2
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    Thoughtful interior

    The interior environment of the Volt was designed to appeal to an urban dweller who desires a smart, daily-use vehicle, according to Wade Bryant, design director, GM Design.

    “On the interior of the Volt, you’ll find technologies, materials and an environment that enable the car to help make life simpler for a person who’s environmentally conscious and leads a city-centered lifestyle,” said Bryant. “It’s ergonomically correct, provides connectivity to the world, and demonstrates smart responsibility through the use of lightweight, recyclable materials.” Two such examples are the instrument panel topper and steering wheel made with GE Plastics.

    Bryant said the interior environment of the four-passenger Volt is defined by a host of current or near-term technologies and materials combined with the ingenious use of ambient light. “It’s definitely based in reality. All the things you see on the interior are within reach in the next few years.”

    According to Bryant, the interior team and the exterior designers worked closely together to make the Volt look like one vehicle. Two examples of their collaboration are the dual beltline and the door hinge that’s visible outside of the car. “We designed this as one element that comes inside the door and becomes the interior pull handle,” said Bryant. “It’s all about integration, refinement and thoughtfulness.”

    Super Imaging instrument cluster

    Super Imaging is an innovative, dual-mode technology display that provides two visual levels of vehicle information to the driver in the instrument cluster. It is a design innovation developed to provide a primary interface between the driver and the vehicle’s key feature: the next-generation, electrically driven propulsion system.

    “The dual-mode instrument cluster was developed to highlight the car’s plug-in capability,” said Bryant. “The powertrain technology is the key feature, so we wanted to make sure the interior communicated that, and the driver would have a sophisticated, fun and useful interaction with the electric-drive system.”

    The first level of information – configured similarly to a conventional instrument cluster – provides traditional data in the form of analog, three-dimensional (3D) LED displays, including three gauges for fuel level, speedometer, odometer, battery level and the transmission “PRNDL” indicator. The second level of information – a transparent screen positioned in front of the 3D LED displays – delivers color, animated data related to the Volt’s advanced propulsion system with a holographic-like appearance.

    Super Imaging works by using invisible, fluorescent inks that are printed on the transparent screen. When illuminated by an ultraviolet (UV) laser projector located behind the instrument cluster (from the driver’s perspective), the inks become excited, and provide four-color illumination and animation.

    Foam/fabric surfaces

    Compression-molded foam with a textile-patterned surface layer is applied on the entire lower instrument panel, lower door trim panels and rear quarter trim areas. The material enables soft, tactile, low-gloss surfaces throughout the interior cabin that appear hand-crafted and specifically tailored to the car.

    This material, used in some of the latest luggage designs, enables zippered access to traditional storage areas such as the glove box, doors, etc. The material is very inexpensive, wears well and enables flexibility in design.

    Composite panels

    Molded GE plastic panels provide thin, structural interior surfaces that can be cantilevered in space. The material is applied on the upper instrument panel, seat backs, center console sides and door inserts.

    Light, strong, affordable and recyclable, the panels are sheathed in reconstructed scrap leather to achieve a soft, hand-crafted surface.

    Use of ambient light

    The aspect of light – from outside and within the vehicle – is played throughout the interior environment. Highlights include a transparent upper roof that provides large quantities of natural light and is enhanced with thinner pillars and rail sections; Gelcore® LED indirect lighting around the roof periphery that illuminates during evening hour entry/egress and can be seen from outside the vehicle; LED functional storage lighting that passes through transparent zippers and provides ambient light during evening hours; and conductive ink controls situated on the interior surface of the glass roof that provide touch access to lights, OnStar buttons and more.

    “All the storage areas are lighted internally, and the light escapes through the clear zippers, so you’ll always be able to find your storage at night,” Bryant said. “It all adds a nice little ambient effect, and the illumination will be color-keyed to the instrumentation lighting color. It’s functional and cool, and when you open it, light from the interior storage area spills out.

    “A big enabler is the transparent upper roof. It provides the Volt with more natural light than most other vehicles. It’s very distinctive and appealing.”
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  3. #3
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    anymore technical info available yet rather than the styling bla-bla?
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    CHEVROLET VOLT CONCEPT SEDAN SPECIFICATIONS

    Overview

    Model:
    Chevrolet Volt Concept

    Body style / driveline:
    4-5-passenger sedan, unitized frame, electric propulsion, front wheel drive

    Construction:
    body-frame-integral structure with composite exterior panels and roof

    EPA vehicle class
    compact car (four doors with rear liftgate)

    Drive system

    Description:
    electrically driven system with onboard range extender, plug-in recharge capability

    Battery system:
    Type:
    lithium-ion

    Energy:
    16 kWh (minimum)

    Peak power:
    130 to 140 kW

    Voltage:
    320 to 350

    100% recharge time:

    110-volt outlet:
    6 to 6.5 hours

    Electric traction system:
    Max. electrical power:
    130 to 140 kW

    Max. mechanical power:
    120 kW

    Continuous electrical power:
    45 kW

    Continuous mechanical power:
    40 kW

    Generator:
    Power:
    53 kW peak power

    Drive:
    direct

    Range extender:
    Type:
    3-cylinder, turbocharged engine

    Size:
    1L

    Fuel:
    gas or E85

    Nominal speed:
    1500 to 1800 rpm

    Max speed:
    3200 rpm

    Fuel tank (gal / L):
    12 / 54.5

    Charger:
    Type:
    plug-in

    Voltage / amp:
    110 / 15

    Horsepower (hp / kW):
    160 / 120

    Torque (lb-ft / Nm):
    236 / 320

    Electric mode range:
    40 miles – full electric vehicle (EV) range

    Estimated fuel economy @ constant state of charge:

    50 mpg during charge sustaining operation

    Daily usage equivalent mpg:
    @ 40 miles or less:
    not applicable – no fuel used

    @ 60 miles:
    150 mpg

    @ 80 miles:
    100 mpg

    0 to 60 mph:
    8 to 8.5 seconds

    Top speed (mph)
    120 (limited duration)

    Chassis/Suspension

    Front:
    independent, strut-type

    Rear:
    semi-independent torsion beam

    Steering type:
    electric, speed-sensitive, variable assist rack-and-pinion

    Turning circle, curb-to-curb
    (ft / m):
    37 to 38 / 11.2 to 11.5

    Brakes

    Type:
    electro-hydraulic power assisted; front disc, rear drum

    Wheels/Tires

    Wheel size (in):
    21 x 6.5

    Tires:
    195/55R21, low-rolling resistance

    Dimensions
    Exterior

    Overall length (in / mm):
    170 / 4318

    Height (in / mm):
    52.6 / 1336

    Width (in / mm):
    70.5 / 1791

    Interior

    Seating capacity (front / rear):
    2 / 2

    Headroom (in / mm):
    front: 37.3 / 947
    rear: 35.9 / 912

    Legroom (in / mm):
    31.5 / 802

    Shoulder room (in / mm):
    50.6 / 1285

    Hip room (in / mm):
    53.1 / 1349
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    GM’S E-FLEX SYSTEM MOVES THE AUTOMOBILE TOWARD NEW ELECTRIC AGE

    DETROIT – General Motors Corp. will introduce multiple propulsion systems that fit into a common chassis, using electric drive to help the world diversify energy sources and establish electricity from the grid as one of those sources.

    GM refers to this family of propulsion systems as the “E-flex System.”

    “The DNA of the automobile has not changed in more than 100 years,” said Larry Burns, GM vice president of research and development and strategic planning. “Vehicles still operate in pretty much the same fashion as when Karl Benz introduced the ‘horseless carriage’ in 1886.

    “While mechanical propulsion will be with us for many decades to come, GM sees a market for various forms of electric vehicles, including fuel cells and electric vehicles using gas and diesel engines to extend the range. With our new E-flex concept, we can produce electricity from gasoline, ethanol, bio-diesel or hydrogen.

    “We can tailor the propulsion to meet the specific needs and infrastructure of a given market. For example, somebody in Brazil might use 100-percent ethanol to power an engine generator and battery. A customer in Shanghai might get hydrogen from the sun and create electricity in a fuel cell. Meanwhile, a customer in Sweden might use wood to create bio-diesel.”

    The Chevrolet Volt, introduced at the North American International Auto Show in Detroit , is just the first variant of the E-flex System. The Volt uses a large battery and a small, 1L turbo gasoline engine to produce enough electricity to go up to 640 miles and provide triple-digit fuel economy. GM will show other variations of the propulsion systems at future auto shows.

    * “GM is building a fuel cell variant that mirrors the propulsion system in the Chevrolet Sequel (fuel cell vehicle),” Burns said. “Instead of a big battery and a small engine generator used in the Volt, we would use a fuel cell propulsion system with a small battery to capture energy when the vehicle brakes. Because the Volt is so small and lightweight, we would need only about half of the hydrogen storage as the Sequel to get 300 miles of range.”

    Future concepts might incorporate diesel generators, bio-diesel and pure ethanol (E-100).
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    GM’S CONCEPT ELECTRIC VEHICLE COULD NEARLY ELIMINATE TRIPS TO THE GAS STATION

    DETROIT – General Motors Corp. unveiled a new electric vehicle concept that could nearly eliminate going to the gas station altogether.

    The concept car, called the Chevrolet Volt, is a battery-powered electric vehicle that uses a gas engine to create additional electricity, thereby extending its range. The Chevy Volt draws from GM’s previous experience in starting the modern electric vehicle market when it launched the EV1 in 1996, according to GM Vice Chairman Robert A. Lutz.

    “The EV1 ‘died’ because it had limited range, limited room for passengers or luggage, couldn’t climb a hill or run the air conditioning without depleting the battery and no device to get you home when your battery charge ran low,” Lutz said. “The Chevrolet Volt is a new type of electric vehicle. It addresses the range problem and has room for four to five passengers and their stuff. You can climb a hill or turn on the air conditioning and not worry about it.”

    The Chevrolet Volt can be fully charged by plugging it into a 110-volt outlet for approximately six hours each day. When the lithium-ion battery is fully charged, the Volt can deliver 40 city miles of pure electric vehicle range. When the battery is depleted, a 1-liter, three-cylinder turbocharged engine spins at a constant speed, or revolutions per minute (rpm), to create electricity and replenish the battery. According to Lutz, this increases the fuel economy and range.

    “If you lived within 30 miles from work (60 miles round trip) and charged your vehicle every night when you came home or during the day at work, you would get 150 miles per gallon,” Lutz said. “More than half of all Americans live within 20 miles of where they work (40 miles round trip). In that case, you might never burn a drop of gas in the life of the car.”

    To further underscore the point, the Chevy Volt is designed to run on E85, a blend of 15 percent gas and 85 percent ethanol. With E85, fuel economy of 150 mpg using gasoline would translate into more than 525 miles per petroleum gallon.

    In the event a driver forgets to charge the vehicle or goes on a vacation far from home, the Volt would still get 50 mpg by using the engine to convert gasoline into electricity and extend its range up to 640 miles, more than double that of today’s conventional vehicles.

    One technological breakthrough required to make this concept a reality is a large lithium-ion battery. This type of electric car, which the technical community calls an “EV range-extender,” would require a battery pack that weighs nearly 400 pounds. Some experts predict that such a battery – or a similar battery – could be production-ready by 2010 to 2012.

    Jon Lauckner, GM vice president of Global Program Management, said the Volt is uniquely built to accommodate a number of advanced technology propulsion solutions that can give GM a competitive advantage (Please see accompanying release on the GM E-flex System).

    "Today's vehicles were designed around mechanical propulsion systems that use petroleum as their primary source of fuel." Lauckner said. Tomorrow's vehicles need to be developed around a new propulsion architecture with electricity in mind. The Volt is the first vehicle designed around GM's E-flex System.

    “That’s why we are also showing a variant of the Chevrolet Volt with a hydrogen-powered fuel cell, instead of a gasoline engine EV range-extender,” said Lauckner. “Or, you might have a diesel engine driving the generator to create electricity, using bio-diesel. Finally, a gasoline engine using 100-percent ethanol might be factored into the mix. The point is, all of these alternatives are possible with the E-flex System.”

    The Volt concept is built on a modified future architecture, Lauckner said, similar to the one GM uses for current small cars, such as the Chevrolet Cobalt and HHR.

    According to Larry Burns, GM vice president for research and development and strategic planning, the world’s growing demand for energy and its dependence on oil for transportation is the common theme behind today’s headlines.

    “Whether your concern is energy security, global climate change, natural disasters, the high price of gas or the volatile pricing of a barrel of oil and the effect that unpredictability has on Wall Street – all these issues point to a need for energy diversity,” Burns said.

    “Today, there are more than 800 million cars and trucks in the world. In 15 years, that will grow to 1.1 billion vehicles. We can’t continue to be 98-percent dependent on oil to meet our transportation needs. Something has to give. We think the Chevy Volt helps bring about the diversity that is needed. If electricity met only 10 percent of the world’s transportation needs, the impact would be huge.”
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    General Motors Groundbreaking New Electric Vehicle uses GE Ecomagination* Technology to Help Drivers Skip the Pump

    Detroit – It’s been nearly 100 years, but Thomas Edison’s belief in electricity as a viable propulsion system for automobiles is one step closer to reality due to the efforts of General Motors and General Electric. Today, GE participated in General Motors’ unveiling of its newest concept vehicle, the Chevrolet Volt, at the North American International Auto Show, in Detroit. The Volt’s E-Flex flexible propulsion system offers a global blended range of transportation energy solutions to regional energy issues and driving behavior.

    GE Plastics played the role of a strategic partner in enabling the design and development of the Chevrolet Volt, by contributing the key materials technology and design engineering support to help position the vehicle as a way to help the world diversify its energy sources and to reduce the dependence on petroleum.

    In the United States alone, almost half the households have a daily mileage of less than 30 miles per day. The Chevrolet Volt concept vehicle is capable of 40 miles of pure electrical vehicle driving, which according to the Environmental Protection Agency means that for most drivers in the city, the Chevrolet Volt will use little or no gasoline. In the spirit of ecomagination*, GE Plastics’ differentiated technologies helped reduce the Volt weight and optimize its fuel efficiency so that drivers can now skip the pump to extend their mileage and increase savings.

    “GM’s commitment to improving fuel economy, reducing vehicle emissions, and developing electrically-driven vehicles is facilitated with GE Plastics’ weight-reduction technologies on the Chevrolet Volt concept car. We were able to take mass out of the Volt in order to optimize its overall efficiency,” said General Motors’ vice president of Global Program Management, Jon Lauckner. “Through the independent auditor, GreenOrder, we were also able to see clear positive environmental results from working with GE Plastics,” said Lauckner.

    “GE’s history and leadership in technology innovation led to this great opportunity to collaborate together with GM on the Volt” said Gregory A. Adams, vice president for the Automotive business at GE Plastics. “We were able to help GM in developing this environmentally-responsible vehicle with outstanding performance, strength and style. Together with GM, we assembled a joint project team to drive forward the development of this monumental new electric vehicle.”

    GE fuel saving technologies showcased on the Chevy Volt include:

    * Roof made with Lexan* GLX resins and Exatec™ Coating Technology
    * Rear Deck Lid and Fixed Side Glazing made with Lexan* GLX resins and Exatec™ Coating Technology
    * Doors and Hood made with Xenoy* iQ High Performance ThermoPlastic Composites (HPPC)
    * Global energy absorber and hybrid rear energy absorbers with Xenoy iQ resins
    * Steering Wheel and Instrument Panel with integrated airbag chute made with Lexan* EXL resins
    * Front Fenders made with Noryl GTX* resins
    * Wire Coating made with Flexible Noryl* resins

    “GE is driving the next generation of materials: greener, lighter, with aesthetically better properties that enable customers, such as GM to create vehicles with a reduced environmental impact,” said Greg Adams. "This effort builds upon each company’s long-standing commitment to help improve the environment and we are pleased to be working on such an visionary project.

    High-Tech GE Plastics Pave the Way to a Greener Chevrolet Volt

    GE Plastics understands the tremendous pressures its automotive customers face with respect to developing fuel-efficient vehicles. GE’s resins and newest composite technologies are some of the key lightweight materials that helped GM to reduce mass on the Volt. These materials also allow for less fuel consumption, fewer carbon dioxide emissions, and improved overall performance.

    Composites are typically used in the aerospace industry and on racecars due to their super lightweight structure and performance. GE Plastics, in partnership with Azdel*, Inc., premieres its own version of composites made with Xenoy iQ* resins on the Volt doors and hood. The composite addresses three critical environmental concerns: conserving energy, lowering greenhouse gas emissions, and up-cycling or regenerating post-consumer waste such as PET plastic bottles.

    Amanda Roble, executive director for GE Plastics’ Automotive business stated, “On the Volt, the fender, window glazings, instrument panel and steering wheel can each offer from 30 to 50 percent weight reduction per part. Wire running throughout the Volt is made from non-halogenated GE plastics and reaches an approximate 25 percent weight reduction compared to traditional wire in automobiles.” said Roble.

    GreenOrder, an environmental strategy firm based in New York, N.Y. that audited the Volt claims, validated that if 3.2 million vehicles of 3,500 pounds were manufactured making use of GE Plastics’ weight reducing components, greenhouse gas emissions would be reduced by more than 194,000 tons each year - that is equivalent to the amount of carbon dioxide absorbed by over 48,000 acres of forest. It also is equal to more than 20 million gallons of oil that would have been conserved each year or over 30 Olympic size swimming pools or more than 470,000 barrels of oil.

    Enabling Signature Surfaces and Safety

    Design Signature Surfaces

    When it comes to improving fuel economy, even the most discreet design features can add up to significant fuel savings and improved safety. GE’s plastics enabled GM Design custom styling cues to differentiate the Volt from any other vehicle concept in the world.

    "The overall solid shape, open-air roof, high beltline and powerful, crisp fender forms of the Volt are made possible only with GE design-enabling materials," said Bob Boniface, director of GM’s Warren Advanced Design Studio.

    The transparent plastic window glazings instill a sense of openness, while allowing drivers 360 degrees of clear vision and improved safety. A scalloped hood, high shoulders, sinewy, and tight lines are made possible through select GE Plastics resins, allowing the GM designers to create exciting shapes and forms.

    “The distinctive styling of the Volt was the result of allowing the GM design team to explore unique and elegant new possibilities made possible by GE's alternative materials,” states Robert Butterfield, global market director for Design Innovation at GE Plastics’ Automotive business.

    Leading-Edge Preventative Occupant and Pedestrian Safety Systems

    GM’s challenge in designing the Volt was to make safety an aspirational aspect of the vehicle’s design and accordingly two key GE technologies have been employed. The first key occupant protection instrument panel system first premiered in the US in 2005 with GM, and its proven reliability is what makes it an integral part of the Volt cockpit. With active occupant protection to brace the front passenger, the automatically extending fragment free airbag deployment is designed to keep the passenger safe prior to an impending accident, to prepare both occupants and vehicle for a collision.

    The second technology from GE is a global energy absorber designed to meet pedestrian safety regulations worldwide. GE Plastics energy absorbers allow the Volt to maintain aggressive vehicle styling architecture, and meet both North American (FMVSS/CMVSS) and European Union (Pedestrian Phase 2 of the Pedestrian Protection Directive) bumper impact legislations.
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  8. #8
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    interesting figures, especially seeing the difference in mileage at different daily usage.
    But what is lacking is the power of the 1L engine, becasue that will be important during long trips, where he that engine will have to provide the recharging as well as the forward propulsion. or is that the continuous mechanical power of 40 KW?
    Last edited by henk4; 01-07-2007 at 02:04 AM.
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  9. #9
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    Quote Originally Posted by Matt
    [B]
    “That’s why we are also showing a variant of the Chevrolet Volt with a hydrogen-powered fuel cell, instead of a gasoline engine EV range-extender,” said Lauckner. “Or, you might have a diesel engine driving the generator to create electricity, using bio-diesel.
    yoepee...
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  10. #10
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    To me this concept looks very much Saab (Aero X)...

  11. #11
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    We don't need 21 inch wheels in a small saloon. I like the fact that it's low. The tech specs are nice but until wee see some proof of production or at least a running prototype, pretty much useless...
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