How to use this calculator
- Enter usable battery capacity and the reserve you will not consume.
- Enter baseline energy use per 100 miles.
- Estimate the percentage change in consumption for the new conditions.
- Calculate the revised range and range loss.
Estimate how changing conditions reduce the practical range of an electric delivery van. The calculator starts with usable battery energy above a chosen reserve, compares baseline consumption with an expected consumption increase, and reports miles lost plus the revised range. Use it for payload, temperature, and delivery-route planning while keeping the efficiency assumption visible and editable.
The main result is the estimated number of miles lost relative to baseline under the entered efficiency change.
This is an energy-balance estimate, not a route simulation. Elevation, wind, speed, stops, HVAC use, and battery temperature can change actual range.
A 110 kWh battery with a 15% reserve provides 93.5 kWh. At 42 kWh/100 mi, baseline range is 222.6 miles. A 20% consumption increase reduces range to 185.5 miles, a loss of 37.1 miles.
Higher energy use per mile means the same usable battery energy covers fewer miles. The calculator separates this efficiency effect from available battery energy.
Enter 20 as the consumption increase. The calculator multiplies baseline energy consumption by 1.20.
Payload is represented through the entered consumption increase. Use measured or route-planning consumption when available instead of assuming a universal payload penalty.
No. Battery energy below the reserve percentage is held back and is not included in the usable-range estimate.
No. Temperature, wind, speed, elevation, cabin heat, traffic, and battery condition vary. Treat the result as a planning estimate.
| Input | Purpose |
|---|---|
| Usable battery capacity | Enter in kWh |
| Reserve state of charge | Enter in % |
| Baseline consumption | Enter in kWh/100 mi |
| Expected consumption increase | Enter in % |