Booster Pump Calculation Excel May 2026
| Parameter | Formula | Excel Example | | :--- | :--- | :--- | | Hydraulic Power (P_h) | Q (m³/s) * TDH (m) * ρ * g | = (Q_m3h/3600) * TDH * 1000 * 9.81 | | Shaft Power (P_s) | P_h / Pump Efficiency (η_p) | = P_h / 0.75 (for 75% efficiency) | | Motor Power (P_m) | P_s / Motor Efficiency (η_m) | = P_s / 0.92 |
NPSHa = (D10*10.2) - 0.34 - H_friction_suction Condition: NPSHa must be > NPSHr (from pump curve) by at least 0.5 m. Once you have TDH and Q, calculate hydraulic, shaft, and motor power. booster pump calculation excel
=CEILING(P_m, 1.5) ' Rounds up to nearest 1.5 kW or 2 HP Create a clean Output section that automatically updates: | Parameter | Formula | Excel Example |
NPSHa = P_suction*10.2 - H_vapour - H_suction_friction ft) and apply CONVERT functions to standardize all
Use data validation dropdowns for units (e.g., m vs. ft) and apply CONVERT functions to standardize all inputs to SI or US customary internally. Part 2: Key Calculations (The Engine of Your Spreadsheet) In a hidden or dedicated column, perform these critical steps. 2.1 Total Dynamic Head (TDH) – The Master Formula The pump must overcome three things: elevation, friction, and velocity head (usually negligible). The core Excel formula for TDH (in meters of water column) is:
TDH = H_geo + H_friction + (P_discharge - P_suction) * 10.2
Download a template or build one using the formulas above. Test it against a known installed pump. Refine it with your local pipe material data. Then use it on every project. Have you built your own pump sizing spreadsheet? What’s the most useful feature you’ve added? Let’s discuss in the comments.