yes, only operating energy costs. I guess my question is what are the percentage losses at various systems within an EV like the picture displays above for a conventional vehicle.anorlunda said:
I'm not sure what you mean by "60% efficient": all cars are exactly 0% efficient in that they produce zero output work. In other words, if you add up all the losses shown, they should equal 100%.tbader said:
Electric vehicles convert about 60% of the electrical energy from the battery to power the wheels—conventional gasoline vehicles only convert about 20% of the energy stored in gasoline to power the wheelsruss_watters said:
Just as a comparison to conventional cars, not looking for very specific numbers as each EV is different as welldonpacino said:
tbader said:
I thought I gave a useful answer, but your post implies you don't think so. Maybe you didn't get what I was trying to say (V50 just said the same thing). I'll run through a couple of examples from your first diagram (though not using the same numbers as V50):tbader said:
The energy efficiency of an EV is significantly higher than that of a traditional gasoline car. EVs do not have an internal combustion engine, which means they do not burn fuel to generate power. Instead, they use electric motors that convert stored energy in the battery into mechanical energy to power the car. This results in much higher efficiency and lower energy consumption compared to gasoline cars.
The energy efficiency of an EV can be affected by several factors, including the type and size of the battery, the weight and aerodynamics of the car, driving habits, and external temperature. Larger batteries and more aerodynamic designs tend to have higher efficiency, while aggressive driving and extreme temperatures can decrease efficiency.
Regenerative braking is a feature in EVs that captures and stores energy when the car is decelerating or braking. This energy is then used to recharge the battery, which increases the overall energy efficiency of the car. In stop-and-go traffic or city driving, regenerative braking can significantly improve the energy efficiency of an EV.
Yes, the source of electricity used to charge an EV can impact its energy efficiency. EVs charged with electricity from renewable sources, such as solar or wind, have a lower carbon footprint and higher overall energy efficiency compared to those charged with electricity from fossil fuels. It is important to consider the source of electricity when analyzing the energy efficiency of an EV.
There are several ways to improve the energy efficiency of an EV, including driving at a steady speed, avoiding rapid acceleration and braking, keeping tires properly inflated, and using regenerative braking when possible. It is also important to charge the car with electricity from renewable sources whenever possible to increase energy efficiency and reduce carbon footprint.