How to use this calculator
- Enter total energy that must be delivered.
- Enter average delivered power, sessions, and session overhead.
- Enter the number of ports and available hours per port.
- Calculate utilization and review the capacity gap.
Estimate how much of the available electric delivery van charging capacity is occupied during a route plan or operating day. The calculator converts energy demand into charging hours, adds per-session overhead, and compares required port-hours with total available charger-hours. It also reports spare capacity or a shortfall so schedules can be checked before adding vehicles, stops, or charging sessions.
The main result is the share of available charger-port time required by the entered plan.
Arrival clustering can create queues even when average utilization is below 100%. Use a time-based schedule for peak-concurrency analysis.
Adding 320 kWh at 60 kW across 8 sessions with 7 minutes of overhead requires 6.27 port-hours. Four ports available for 10 hours provide 40 port-hours, so utilization is 15.7%.
Occupied time includes active charging plus any entered setup, connection, or dwell overhead for each session.
No feasible schedule can. If required occupied hours exceed available charger-hours, the calculator reports the capacity shortfall instead of treating it as valid utilization.
Available charger-hours equal port count multiplied by operating hours in the selected period.
Yes. Enter only the hours the ports are actually available, or reduce operating hours to reflect planned downtime.
Not necessarily. Spare capacity may be intentional for peak arrivals, redundancy, growth, or service-level requirements.
| Input | Purpose |
|---|---|
| Total battery energy to add | Enter in kWh |
| Average delivered power | Enter in kW |
| Charging sessions | Enter in sessions |
| Overhead per session | Enter in min |
| Charging ports | Enter in ports |
| Available hours per port | Enter in hr |