The Aero-P Car's Vacuum Suction Setup Keeps It On the Track
Rahul Kalvapalle — September 14, 2016 — Autos
References: arielmotor & newatlas
The Aero-P is a high-tech concept car, developed by UK-based Ariel Motors, that is designed with a number of structural changes that revolve around efficiently boosting performance by reducing drag.
This particular concept car is designed to combat the drag that can be generated when a vehicle is equipped with a fixed wing. The car features a special skirt that works in conjunction with a pair of compact fans to generate a vacuum environment under the vehicle, essentially sucking it down so that it stays flush to the road. For this reason, the concept car's technology is better suited for track applications rather than real-world roads.
In essence, the Aero-P concept car relies on vacuum-generated downforce to combat drag, something that makes for enhanced performance and control at high speeds.
This particular concept car is designed to combat the drag that can be generated when a vehicle is equipped with a fixed wing. The car features a special skirt that works in conjunction with a pair of compact fans to generate a vacuum environment under the vehicle, essentially sucking it down so that it stays flush to the road. For this reason, the concept car's technology is better suited for track applications rather than real-world roads.
In essence, the Aero-P concept car relies on vacuum-generated downforce to combat drag, something that makes for enhanced performance and control at high speeds.
Trend Themes
1. Drag-reducing Cars - Innovative car designs are focused on reducing drag through structural changes and vacuum-based technology.
2. Vacuum-generated Downforce - The use of vacuum suction to create downforce is a disruptive innovation that improves performance and control at high speeds.
3. Track-optimized Vehicles - Concept cars like the Aero-P are specifically designed for track use, showcasing the potential to enhance performance in racing environments.
Industry Implications
1. Automotive - Automakers are exploring ways to reduce drag and improve performance through innovative car designs.
2. Aerospace - The vacuum-based technology used in drag-reducing cars has potential applications in the aerospace industry for enhancing aerodynamic efficiency.
3. Motorsports - The development of track-optimized vehicles presents opportunities for improved performance in the motorsports industry, including racing competitions and automotive events.
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