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Natural Gas Pipe Calculator

Reference data and engineering information about natural gas pipe calculator for gases and compressed air applications.

naturalgaspipecalculatorCalculator

Overview

Engineering reference data for Natural Gas Pipe Calculator in gases and compressed air.

Key Formulas

Ideal Gas Law

PV=nRTPV = nRT

Pressure × Volume = moles × gas constant × temperature.

Boyle's Law

P1V1=P2V2P_1 V_1 = P_2 V_2

At constant temperature.

Charles's Law

V1T1=V2T2\frac{V_1}{T_1} = \frac{V_2}{T_2}

At constant pressure.

Variables

SymbolDescriptionUnit
PPPressurePa
VVVolume
TTTemperatureK
RRGas constant8.314 J/(mol·K)

Practical Notes

Application Range

  • Spitzglass formula applies to low pressure natural gas systems: less than 1 psi (6.9 kPa)
  • Valid for systems with small pressure losses

Typical Values

Specific Gravity of Natural Gas

  • Range: *0.55 to 1.0
  • Typical: *0.60 to 0.70
  • Use 0.60 as a default when specific data is unavailable

Downstream Pressure (after meter/regulator)

  • Household systems: 7 to 11 inches Water Column (approximately 1/4 psi)

BTU Content

ConversionValue
Natural gas BTU content900 – 1100 BTU per CF
1 Cubic Foot (CF)≈ 1000 BTU
1 CFH= 1 MBH

Example Calculation

Calculate the capacity of a 100 ft natural gas pipe with nominal diameter 0.5 inches (actual ID = 0.622 in) and 0.5 inches WC pressure drop. Assume SG = 0.60.

Step 1: Calculate the pipe constant k

k=d51+3.6d+0.03d=(0.622)51+3.60.622+0.03(0.622)=0.117k = \sqrt{\frac{d^5}{1 + \frac{3.6}{d} + 0.03d}} = \sqrt{\frac{(0.622)^5}{1 + \frac{3.6}{0.622} + 0.03(0.622)}} = 0.117

Step 2: Calculate the flow rate q

q=3550×k×hl×SG=3550×0.117×0.5100×0.60=37.9 cfhq = 3550 \times k \times \sqrt{\frac{h}{l \times SG}} = 3550 \times 0.117 \times \sqrt{\frac{0.5}{100 \times 0.60}} = 37.9 \text{ cfh}

The pipe delivers approximately 37.9 cfh (cubic feet per hour) under these conditions.

References