Road transport contributes about one-fifth of the EU's total CO2 emissions. Greater adoption of electric vehicles (EVs) would positively impact reductions in CO2 emissions, but range anxiety remains a key barrier2 to mass-uptake. When selecting a car, 44% of drivers consider emissions to be important3, but only 5% would actually buy an EV due to range concerns. Better methods for extending range are needed to allow the EV market to reach its full potential.
This project seeks to successfully demonstrate and scale up for market readiness, a novel, high efficiency, low emission, compact rotary engine range extender for electric vehicles. Electric vehicles (EV) are emerging as the future of transport as they break the dependence on fossil fuels and offer significant advantages in terms of noise and local air pollution. However, uptake has been poor so far due to range anxiety.
Automotive manufacturers have addressed this issue through the installation of range extender engines. However, existing extenders tend to be too large with poor power density, limiting their use in small commercial and domestic vehicles where space is at a premium. The clear business opportunity is to provide tier 1 automotive powertrain providers and OEMs with breakthrough innovation in EV range extender technology that significantly improves power density whilst providing high efficiency, low emissions, low noise and low vibration to meet consumer needs. Our solution, CREEV, takes the inherent advantages of rotary (Wankel) type engines for such compact applications and applies patent protected innovations to overcome efficiency and reliability issues to deliver an engine exactly matched to OEM needs.
Through application of innovative technology, CREEV delivers a step-change in range extender technology. Its features will deliver improved range to EVs, providing quiet, compact operation with lower fuel consumption and emissions compared to the existing state of the art