EV & Battery Manufacturing worked example

Slurry Mix Batch Yield at 99% target slurry batch yield: a worked example

This scenario runs the slurry mix batch yield calculation on the strong side: 99% target slurry batch yield, with every other input held at its documented default. a cell plant needs to know whether anode or cathode slurry batches are releasing enough usable material for coating

The inputs for this scenario

  • Released slurry mass: 2,380 kg (unchanged)
  • Total mixed slurry mass: 2,500 kg (unchanged)
  • Target slurry batch yield: 99 % (raised for this scenario; the documented default is 96)

Working through the calculation

  • Applying the documented formula (Slurry batch yield = released slurry mass รท total mixed slurry mass) to the inputs above produces each figure below.
  • At this operating point the engine returns 95.2 % slurry yield for slurry batch yield, the number this scenario is built around.
  • At this operating point the engine returns 3.8 points for slurry yield gap to target.
  • At this operating point the engine returns 2,380 kg for released slurry mass.
  • At this operating point the engine returns 2,500 kg for total mixed slurry mass.

How this compares with the baseline

  • Against the tool's baseline example, where target slurry batch yield sits at 96% and the headline result is 95.2 % slurry yield, this scenario lands almost exactly on the baseline at 95.2 % slurry yield.
  • Use it per mix batch at the slurry release gate, or roll it up shift-by-shift to spot mixers or recipes that are losing more material than the line can afford. Treat this as a target state: the delta against the baseline quantifies what the improvement is worth before you commit to chasing it.

Results at a glance

  • Slurry batch yield: 95.2 % slurry yield (headline result)
  • Slurry yield gap to target: 3.8 points
  • Released slurry mass: 2,380 kg
  • Total mixed slurry mass: 2,500 kg

Run it with your numbers

  • Every input above is editable in the live Slurry Mix Batch Yield calculator, which recalculates instantly and can be shared with the inputs intact.

Last reviewed 2026-05-12.