Recently, from the Liechtenstein electric car brand nanoFLOWCELL released a group of QUANT 48Volt concept sports car official picture. The new car will use low-voltage liquid flow battery technology and achieve four rounds of low voltage independent drive, the maximum power will reach 762 horsepower, the maximum speed can be as high as 300km / h, 0-100km / h acceleration time in 2.4 seconds, and its maximum life Mileage is expected to exceed 1000 km. It is reported that the car will be 2017 Geneva Motor Show officially debut.
In the appearance, from the published official figure we can see the car with a very modern design style, smooth body lines, and the use of the striking gull-wing door design. In the internal space, this car is used with the traditional sports car the same 2 +2 seat layout.
In the power, this concept sports car will use pure electric drive. But unlike most electric cars, the new car uses a 48 volt low-voltage liquid-flow battery technology, which we can also find from the "QUANT 48Volt" naming method. The new car is equipped with four 48-volt low-voltage motors with a power of 140 kW (190 hp), and also uses advanced nano-processes to increase the size of the diaphragm on the flow cell, increasing the order of electrochemical reactions and further improving battery performance. It is understood that the maximum power of the new car can reach 762 horsepower, the maximum speed can be as high as 300km / h, 0-100km / h acceleration time in 2.4 seconds, the maximum mileage is expected to more than 1000 km.
Liquid battery is actually a traditional battery and fuel cells between the battery, compared to the current mainstream lithium-ion battery technology, the battery performance to be nearly 4 times higher. Liquid flow battery is mainly composed of positive and negative, diaphragm and pump, where the positive and negative are separated by the diaphragm, and were stored in the respective electrolyte storage tank. The electrolyte containing the metal salt is pumped into the liquid flow cell, and the metal ions in the electrolyte exchange between the positive and negative electrodes, resulting in an electrochemical reaction, resulting in a current.
Post a comment
Hello guest, care to post a comment?