Italian auto design house Italdesign has debuted a fascinating new grand tourer concept, dubbed the GTZero, that is its unique vision of what a supremely innovative, all-electric grand tourer vehicle can offer when it embraces modular design and structural components.
Unveiled at the Geneva Motor Show, the GTZero grand tourer concept is powered by a trio of motors, two at the front and one at the rear. These three motors work together to offer up a combined total of 483 horsepower, enabling the vehicle to function on battery power and attain a top speed of 500 km. In terms of design, the GTZero features a curvaceous hood and bulky fenders that work to give it a supremely aerodynamic shape that helps it hurtle through at high speed.
Italdesign's grand tourer concept is unlikely to become a production vehicle, but is still a fine example of the style and power that can be exhibited in electrically powered vehicles.
Aerodynamic Concept Cars
Italdesign's Grand Tourer Concept Is Powered By Three Electric Motors
Trend Themes
1. Modular Design in Electric Vehicles - The concept of modular design in electric vehicles, like Italdesign's GTZero, presents an opportunity to create innovative and customizable car platforms.
2. Aerodynamic Shape for Electric Vehicles - Designing electric vehicles with an aerodynamic shape, as seen in Italdesign's GTZero, allows for improved performance and efficiency.
3. Multiple Electric Motors for Increased Power - The use of multiple electric motors, as demonstrated in Italdesign's GTZero, offers the potential for enhanced power and acceleration in electric vehicles.
Industry Implications
1. Automotive Design - The automotive design industry can explore the incorporation of modular design and aerodynamic shapes to create innovative electric vehicles.
2. Electric Vehicle Manufacturing - The electric vehicle manufacturing industry can adopt the use of multiple motors to improve the power and performance of their vehicles.
3. Sustainable Transportation - The sustainable transportation industry can leverage modular design and aerodynamic shapes to develop electric vehicles with increased efficiency and reduced environmental impact.