「FAW VERTEC」Performance

Traditional diesel vehicles and hybrid cars face uphill trouble, whereas "FAW VERTEC" can easily overcome a 1:4 gradient by using a higher-speed electric motor. When the "FAW VERTEC" goes downhill, it can even recharge the battery and make more efficient use of energy. The acceleration time of "FAW VERTEC" in 0-50 km  is less than 6.5 seconds, killing all kinds of diesel trucks. When it is urgent to recharge, after recharging for one hour, extra about 40 kilometers is added. The quick recharge for half an hour can extend 50 kilometers. Charging for on night in the parking lot is enough for a full-day-run for the next day (about 200 kilometers). Electricity prices are more stable than oil prices, and electric vehicles are more advantageous in terms of electricity and maintenance costs, which can help reduce transportation costs by 20%-50% and effectively help enterprises reduce relative costs.

Carbon Emission Comparison-100 kilometers per day

Carbon emission comparison between pure electric light truck and diesel light truck ( run 100 kilometers per day)
Daily average mileage(100km) Pure Electric Light Truck Diesel Light Truck
Daily average energy consumption(air-conditioning is included) 45kw·h 14L
Carbon emissions per unit 0.81kgCO2/kw·h① 2.73kgCO2/L②
Daily carbon emissions of energy consumption 36.45 kgCO2 38.22 kgCO2
Annual carbon emissions from energy consumption (300 days) 10,935 kgCO2 11466 kgCO2
3 years of carbon emissions in energy consumption 21,870 kgCO2 22932 kgCO2
5 years of carbon emissions in energy consumption 32805 kgCO2 34398 kgCO2

① CLP's carbon emission intensity is 0.81 kg of carbon dioxide per kWh

②The national greenhouse gas CO2 emission coefficient is 2.73 kilograms of diesel oil per litre of diesel

- Pure electric light trucks do not emit exhaust gas during use, so no roadside emissions will be generated.
- When pure electric trucks generate electricity in power plants each year,  the concentrated CO2 emissions is about 500kg less than that of the roadside CO2 produced  by traditional diesel trucks.
- Studies have shown that a tree can only absorb 20kg of carbon dioxide per year. If a pure electric truck is used, it is equivalent to planting 25 trees per year and planting 125 trees in 5 years.
- Pure electric trucks are more environmently friendly than diesel trucks and are definitely a good helper to reduce roadside air pollution and improve roadside air quality.

Carbon Emission Comparison-200 kilometers per day

Carbon emission comparison between pure electric light truck and diesel light truck ( run 200 kilometers per day)
Daily average mileage(200km) Pure Electric Light Truck Diesel Light Truck
Daily average energy consumption(air-conditioning included) 45kw·h 14L
Daily average energy consumption 90kw·h 28L
Carbon emissions per unit 0.81kgCO2/kw·h① 2.73kgCO2/L②
Daily carbon emissions of energy consumption 72.9kgCO2 76.44kgCO2
Annual carbon emissions from energy consumption (300 days) 21,870kgCO2 22,932kgCO2
3 years of carbon emissions in energy consumption 65,610 kgCO2 68,796 kgCO2
5 years of carbon emissions in energy consumption 109,350 kgCO2 114,660 kgCO2

① CLP's carbon emission intensity is 0.81 kg of carbon dioxide per kWh

②The national greenhouse gas CO2 emission coefficient is 2.73 kilograms of diesel oil per litre of diesel

- Pure electric light trucks do not emit exhaust gas during use, so no roadside emissions will be generated.
- When pure electric trucks generate electricity in power plants each year,  the concentrated CO2 emissions is about 1 ton less than that of the roadside CO2 produced  by traditional diesel trucks.
- Studies have shown that a tree can only absorb 20kg of carbon dioxide per year. If a pure electric truck is used, it is equivalent to planting 50 trees per year and planting 250 trees in 5 years.
- Pure electric trucks are more environmently friendly than diesel trucks and are definitely a good helper to reduce roadside air pollution and improve roadside air quality.

XS
SM
MD
LG