French company NAWA describes an electric motorcycle fed not only by a lithium battery, but a lithium battery hybrid that works in conjunction with proprietary “ultracapacitors”. These ultracapacitors (or supercapacitors?) are, according to NAWA, capable of substantially increasing the efficiency of a standard lithium battery system by, among other things, capturing more energy from regenerative braking. The ultracapacitors also maintain acceleration performance despite reduction in the charge level of the lithium battery.
Here is a portion of the press release from NAWA describing the NAWA Racer, followed by the company’s video:
About NAWA Racer
Intended to turn heads as well as offer a ground-breaking electric powertrain, NAWARacer brings a modern twist to its retro styling. Its top tank area hides an arrangement of NAWA Technologies’ own ultracapacitors, which boost a lithium-ion battery mounted low in the chassis with an innovative Hybrid Management system (HMS), Energy Control Unit (ECU) and in-wheel electrical motor.
Re-using more than 80 percent of the energy captured from regenerative braking, NAWARacer uses a much smaller lithium-ion battery than would otherwise be possible: around half the size of a conventional electric sports bike’s battery.
The NAWACap pack itself is lightweight and is combined with the motorbike’s aluminum structural body, set to offer a 25 percent weight saving over conventional electric sports bikes. The hybrid storage pack powers a highly efficient in-wheel electrical motor, developing up to 40 kW. Although simplified for its first version, this lightweight, compact hybrid battery system results in exceptional range. Thanks to its lithium-ion battery, NAWA Racer is projected to cover 150km on a mixed cycle, including highways. But by capturing so much energy from stop-start riding, releasing it again as acceleration, NAWA Racer can double its urban range to 300km.
No matter the charge level of the lithium-ion battery, NAWA Racer will always have full acceleration on demand – projected to be 0-100km/h in under three seconds – because of the ultracapacitor’s high power characteristics, which continually maintain response and performance.
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