A practical section covers scale-up rules and empirical corrections: maintaining constant tip speed vs. constant power per unit volume, and when each approach makes sense. The spreadsheet includes a compact table of common impellers with recommended Np, typical clearance ranges, and agitation intensity guidance — handy when you want to sanity-check a selection.
Start with the process brief: fluid properties (density, viscosity), phase behavior (single-phase liquid, slurry, or gas-liquid dispersion), temperature, and vessel geometry. In the spreadsheet, these inputs live on a single, well-labeled sheet with dropdowns and inline notes — the human-friendly front door to the calculation engine.
For solids handling, the workbook steps through suspension criteria using just a few measured or estimated inputs: particle size, density difference, and desired mixing degree. A dedicated table shows multiple impeller options (marine, pitched-blade, turbine), their expected flow patterns, and calculated minimum tip speed to keep particles suspended. A quick “what-if” area lets you instantly compare impeller sizes and speeds — the kind of instant feedback that turns design iteration into experimentation.
