What is the battery capacity of the VW E-up?
Battery and Charging The battery of the Volkswagen e-Up! Wh. The usable capacity is 32. Wh. The battery of the Volkswagen e-Up! Wh. The usable capacity is 32. Wh. A range of about 125 miles is achievable on a fully charged battery.The Volkswagen e-up! While it drives neatly, the fun factor is overwhelmingly governed by the keen electric motor rather than the car’s engaging handling.To calculate an electric car’s efficiency, you can use the following formula: EV range (miles) ÷ kWh battery size = miles per kWh. The battery’s efficiency is determined by the miles per kWh ratio. An average vehicle typically achieves an efficiency of 3 miles/kWh, while the most efficient EVs reach around 5 miles/kWh.
What is the range of the 18. Wh e-up?
Powered by an 18. Wh lithium-ion battery and a 60kW (82 PS) electric motor, the e-up! The Volkswagen e-up! While it drives neatly, the fun factor is overwhelmingly governed by the keen electric motor rather than the car’s engaging handling.
Is 4. Wh good?
Most electric cars in the UK average between 3 and 4. Wh, with the most efficient cars hitting close to 5. Smaller and lighter cars often perform better, while bigger SUVs tend to sit at the lower end. Anything around 4 miles per kWh is good. If your car can do 5 miles per kWh or more, that is excellent. Some of the early electric cars that came out 8-10 years ago weren’t great at converting stored battery energy into actual miles driven. Nowadays, most electric cars have a real-world efficiency of at least 3 miles per kWh, though a few dip down to around 2. Wh.According to a study conducted by T&E (Transport and Environment) based on real-world data, it was found that EVs (Electric Vehicles) consume around 17. Wh/100km on a mixed driving cycle. This roughly translates to about 2. Wh/mile.Whether a 30kW battery is sufficient depends on your home’s energy usage, the presence of solar panels, and how you manage your energy. While it can theoretically power an average home for a day, integrating it with solar panels or limiting usage to essential systems can significantly extend its performance.A household typically consumes approximately 800 to 1,000 kWh (kilowatt-hours) of monthly electricity. To save more energy, you can start by switching appliances to energy-efficient ones with ENERGY STAR® labels.
How far does 1 kWh get you in an electric car?
Not many electric vehicles will routinely cover more than five miles per kWh, though it does depend greatly on the car itself, driving style, and where it is driven. Most EVs will cover between three and four miles per kWh, though larger, more powerful models will achieve lower levels of efficiency. Charging an EV at home is generally cheaper and more convenient than charging at a public station, but it may also be slower and less available. Charging an EV at a public station is generally faster and more available than charging at home, but it may also be more expensive and less convenient.Charging an electric vehicle (EV) battery overnight at home is usually the least expensive option. Gas prices fluctuate, and electricity rates vary regionally, but in most cases, it costs less per month to charge an EV than to buy gas for a traditional vehicle.If you have a driveway or garage, you can install a dedicated chargepoint. This is the cheapest way to charge your EV. If you’re planning to install an EV chargepoint at home, you’ll need to: Find and buy a chargepoint.In general, yes, EVs are cheaper to run than petrol cars over their lifespan. This is due to a number of factors. First of all, electricity is typically significantly cheaper than petrol or diesel per mile driven.
Is 20 kWh per 100 km good?
EVs are relatively new, so there is no set benchmark for an ‘efficient’ vehicle yet. According to the Electric Vehicle Database, the most efficient EVs are sitting at 15kWh/100km while the average is 20kWh/100km. Not many electric vehicles will routinely cover more than five miles per kWh, though it does depend greatly on the car itself, driving style, and where it is driven. Most EVs will cover between three and four miles per kWh, though larger, more powerful models will achieve lower levels of efficiency.We can use the average driving distance of about 14,000km per year, and a typical ev efficiency of 17kwh/100km (this equates to ~7l/100km in a petrol car) to get a ballpark though, of about 2,400kwh per year per car.In an electric car, the miles per kWh figure tells you how many miles the car will go on 1 kWh, or unit, of electricity. So if your EV has a battery size of 50 kWh and an efficiency rating of 3 miles per kWh, then on average it can travel 150 miles on a fully charged battery (50 kWh x 3 miles per kWh).