Deck 19: Battery Electric Vehicles Bevs

A family vehicle uses 100 kg of Li-ion batteries in conjunction with 200 kg
of supercapacitors for energy storage. What is the maximum power output, and what is its
range? Would it be advantageous to increase or decrease the relative mass of the batteries
compared to the supercapacitors in order to improve vehicle characteristics?

A typical Pb-acid automobile battery weighs 20 kg. Compare the amount of

What are the ranges of typical (family size) battery electric vehicles that
utilize 250 kg of batteries if the batteries are (a) Pb-acid, (b) NiMH, and (c) Li-ion?

If the number of electric vehicles in the United States continues to increase

An owner of an electric vehicle with a range of 200 km plans to drive the

(a) If primary alkaline D cells are used to power an electric (family-size)

Estimate the mass of a disk-shaped steel flywheel that would be required to

(a) Consider a Pb-acid battery backup system for a residence. Using

What is the range of a family-sized vehicle utilizing 100 kg of
supercapacitors as an energy storage mechanism? What is the maximum power output (in
watts)?

Describe the trends in specific energy as a function of battery size for Zn-C
and alkaline cells. Show that the values given for large batteries in the text are reasonable.

Estimate the mass of supercapacitors necessary to provide a vehicle with
the same range as an internal combustion gasoline engine vehicle with a 70 L fuel tank.

Assume that the batteries in an electric vehicle are designed to provide the

For the vehicle considered in Example 19.5, estimate the available power.

Supercapacitors benefit from large effective surface areas and small

A gasoline-powered automobile burns 7.0 L of fuel per 100 km while

The Tesla Model S (performance version) has a total battery capacity of 85

(a) Using the specified maximum output power for the NiMH battery-

An electric vehicle owner drives 25,000 km per year and uses electricity