History
Like many creative inspirations, our designs have evolved from their original forms. There have been countless alterations, modifications, and improvements developed over the last six years, but the motivation behind each of the steps that have been taken has stayed the same.
In the coming decades, energy will become harder to access, the cost of living will increase, and the transportation industry will evolve. Natural gas, hydrogen, and battery-powered vehicles will become increasingly commonplace. The inefficient combusion process will be replaced by a set of alternative technologies. Though hydrogen-combustion engines do exist, fuel cells and batteries remain the most likely replacements for gasoline. Since fuel cells and batteries both produce electricity, it seems inevitable that the electric motor will replace the internal combustion engine.
Our intent is to deliver an optimal solution to the propulsion energy problem. How far can the electric car go?
In the coming decades, energy will become harder to access, the cost of living will increase, and the transportation industry will evolve. Natural gas, hydrogen, and battery-powered vehicles will become increasingly commonplace. The inefficient combusion process will be replaced by a set of alternative technologies. Though hydrogen-combustion engines do exist, fuel cells and batteries remain the most likely replacements for gasoline. Since fuel cells and batteries both produce electricity, it seems inevitable that the electric motor will replace the internal combustion engine.
Our intent is to deliver an optimal solution to the propulsion energy problem. How far can the electric car go?
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Primary Researcher
Tim Lambert
Honours B.Sc. Physics (2011)
M.A.Sc. Electric Drive Technology (2013)
Tim Lambert
Honours B.Sc. Physics (2011)
M.A.Sc. Electric Drive Technology (2013)