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Vacuum Pumps Exhaust Piping

Reference data and engineering information about vacuum pumps exhaust piping for pumps applications.

vacuumpumpsexhaustpiping

Overview

Engineering reference data for Vacuum Pumps Exhaust Piping in pumps.

Key Formulas

Pump Power

P=QHρgηP = \frac{Q \cdot H \cdot \rho \cdot g}{\eta}

Hydraulic power / efficiency.

NPSH Available

NPSHa=Psρg+vs22gPvρgNPSH_a = \frac{P_s}{\rho g} + \frac{v_s^2}{2g} - \frac{P_v}{\rho g}

Net Positive Suction Head available.

Affinity Laws

Qn,Hn2,Pn3Q \propto n, \quad H \propto n^2, \quad P \propto n^3

Flow, head, power vs speed.

Variables

SymbolDescriptionUnit
PPPowerW
QQFlow ratem³/s
HHHeadm
η\etaEfficiency
nnRotational speedRPM

Example Calculation

The vacuum pump exhaust pipe sizing can be estimated using the principle of equivalent flow capacity through parallel pipes or a larger single pipe.

For the given example:

  • Exhaust flow rate: Q=1200 cfmQ = 1200\ \text{cfm}
  • Required piping length: L=60 ftL = 60\ \text{ft}

The maximum length for a 6" pipe carrying 600 cfm600\ \text{cfm} is Lmax120 ftL_{\text{max}} \approx 120\ \text{ft}.

Therefore, using two 6" pipes in parallel provides sufficient capacity: Qtotal=Q1+Q2=600 cfm+600 cfm=1200 cfmQ_{\text{total}} = Q_1 + Q_2 = 600\ \text{cfm} + 600\ \text{cfm} = 1200\ \text{cfm}

2 rows
Comparison of internal area and relative capacity between standard 6-inch and 8-inch pipes.
Parameter
6-inch Pipe
8-inch Pipe
Internal Cross-Sectional Area12
Assumed Capacity1x2x

Source: engineeringtoolbox.com

Practical Note

The diagram-based approach shown is an approximation method. For critical applications, consult manufacturer performance curves or use detailed fluid dynamic calculations that account for factors like:

  • Pipe roughness and material
  • Number and type of fittings (elbows, valves)
  • Total equivalent length
  • Temperature and vacuum level specifics

Interactive Charts

vacuum pumps exhaust pipes capacity diagram - scfm

References