A group of researchers and engineers working out of Mississippi State University have created an exceptionally innovative and futuristic vehicle that consists of what was once a regular Subaru BRZ vehicle with its boxer engine removed and replaced with a much more lightweight hybrid system that enhances its abilities significantly.
This manipulated vehicle is equipped with a magnesium frame that is much lighter than the original Subaru BRZ, and allows for the inclusion of a pair of electric motors. These motors get their juice from lightweight batteries and offer power of up to 12.7 kWh, which is more than sufficient for at least 80 km of all-electric driving.
Ultimately, this re-engineered Subaru BRZ goes to show how innovative auto engineering can make existing vehicles more energy-efficient and eco-friendly without compromising on their performance.
Lightweight Hybrid Cars
This Re-Engineered Subaru BRZ Features Dual Electric Motors
Trend Themes
1. Lightweight Hybrid Systems - The creation of lightweight hybrid systems for vehicles allows for enhanced abilities and improved energy efficiency.
2. Electric Motors - The incorporation of electric motors into vehicles provides an opportunity for all-electric driving and reduced carbon emissions.
3. Magnesium Frames - The use of magnesium frames in vehicle construction offers lighter weight options for improved fuel efficiency and eco-friendliness.
Industry Implications
1. Automotive Industry - The automotive industry can explore innovative engineering techniques to create lightweight hybrid systems and incorporate electric motors for more energy-efficient vehicles.
2. Battery Industry - The battery industry can develop lightweight batteries to power electric motors in hybrid vehicles, enabling longer ranges and improved performance.
3. Materials Industry - The materials industry can focus on producing magnesium frames and components for vehicle manufacturers, offering lighter weight options for improved energy efficiency.