RHINO – Battery Pack Sizer

Use this tool to estimate the RHINO battery pack size from a target pure-EV range, average energy consumption, and the usable SoC window. It is meant for concept work, fleet planning, and RHINO investor discussions.

What this calculator helps you answer

How many kWh are needed for a given RHINO range and Wh/km assumption.
How many battery modules are required at a chosen module size (e.g. 1.5 kWh).
How the result compares to a reference pack (for example, 64 × 1.5 kWh ≈ 96 kWh).

How to use it

Enter the target pure-EV range in km and expected Wh/km.
Set the minimum SoC you want to use (for example, down to 20%).
Adjust module size and reference module count if needed.
Read off usable energy, required pack size, and module count.

Back-of-envelope sizing only – detailed engineering will refine these values.

Battery Size Calculator

Inputs

Typical use: off-grid / backup / solar storage, or EV pack sizing at a rough energy level.

Daily energy use kWh per day

Days of autonomy how many days to run

Depth of discharge (DoD) % usable

System efficiency % overall

System voltage V DC (e.g. 48, 400)

Module size (optional) kWh per module / pack

Use this to estimate how many identical modules or packs you would need.

Results

Calculations assume: required kWh = daily kWh × days ÷ (DoD × efficiency).

Energy requirement

Nominal storage needed 0 kWh

Usable energy (after losses) 0 kWh

Battery capacity

            Required capacity
            0 kWh
          

Capacity at system voltage 0 Ah

Estimated modules needed –

Within typical range for small systems.

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