Gas Pipeline Fluid Mass And Volume

Calculate single phase gas pipeline fluid mass and volume.

Fluid mass and volume can be calculated from fluid volume, fluid mass, or pipeline length. Gas density is calculated from temperature and pressure. The gas specific gravity is the ratio of gas density over the density of dry air at base temperature and pressure. The compressibility factor is assumed to equal 1 at the base conditions. The gas specific gravity is proportional to the gas molar mass.

Change Module :

Gas Pipeline Blowdown Time Calculation Module
Gas Pipeline Chemical Dose Rate Calculation Module
Gas Pipeline Fluid Density And Specific Gravity Calculation Module
Gas Pipeline Fluid Velocity And Flow Rate Calculation Module
Gas Pipeline Line Pack Calculation Module
Gas Pipeline Local Pressure Calculation Module
Gas Pipeline Mass And Weight Calculation Module
Gas Pipeline Minor Loss Factor Calculation Module
Gas Pipeline Pressure Loss From The AGA Equation Calculation Module
Gas Pipeline Pressure Loss From The Darcy Weisbach Equation Calculation Module
Gas Pipeline Pressure Loss From The Moody Diagram Calculation Module
Gas Pipeline Pressure Loss From The Weymouth And Panhandle Equation Calculation Module
Gas Pipeline Vent Calculation Module
Gas Rectangular Duct Pressure Loss Calculation Module
Low Pressure Air Pressure Loss From The Moody Diagram Calculation Module
All

Related Modules :

Gas Compressibility Factor Calculation Module
Line Pipe Cross Section Calculation Module
Liquid Kinematic And Dynamic Viscosity Calculation Module
More Gas Pipeline Mole Volume Modules

[FREE] tools are free in basic mode with no login (no plots, tables, goal seek etc). Login or Open a free account to use the tools in plus mode (with plots, tables, goal seek etc).
[PLUS] tools are free in basic CHECK mode with Login or Open a free account (CHECK values no plots, tables, goal seek etc). Buy a Subscription to use the tools in plus mode (with plots, tables, goal seek etc).
Try plus mode using the Plus Mode Demo tools with no login. Help Using The Pipeng Toolbox (opens in the popup workbook)

Links : ±

CALCULATOR : Single Phase Gas Pipeline Gas Density And Volume [FREE] ±

Calculate single phase gas pipeline density and volume.

The gas specific gravity is the ratio of gas density over the density of dry air at base temperature and pressure. The compressibility factor is assumed to equal 1 at the base conditions. The gas specific gravity is proportional to the gas molar mass.

Tool Input

schdtype : Pipe Schedule Type
diamtype : Pipe Diameter Type
- ODu : User Defined Outside Diameter
- IDu : User Defined Inside Diameter
wtntype : Wall Thickness Type
- tnu : User Defined Wall Thickness
fluidtype : Gas Type
- SGu : User Defined Gas Specific Gravity
voltype : Gas Volume Type
- Vfu : User Defined Gas Volume
- Mfu : User Defined Gas Mass
- Ngu : User Defined Gas Moles
- Lu : User Defined Pipeline Length
P : Gas Pressure
T : Gas Temperature
Z : Gas Compressibility Factor

Tool Output

ρ : Gas Density
ID : Inside Diameter
L : Pipeline Length
M : Gas Molar Mass
Mf : Gas Mass
Ng : Gas Moles
R : Gas Constant
SG : Gas Specific Gravity
Vf : Gas Volume (At T P)
vg : Gas Molar Volume (At T P)

CALCULATOR : Single Phase Gas Pipeline Inside Diameter And Area [FREE] ±

Calculate single phase gas pipeline inside diameter and inside cross section area from pipe diameter and wall thickness.

Use the Result Table option to display a table of the inside diameter and cross section area versus either outside diameter or wall thickness.

Tool Input

schdtype : Schedule Type
diamtype : Diameter Type
- ODu : User Defined Outside Diameter
- IDu : User Defined Inside Diameter
wtntype : Wall Thickness Type
- tnu : User Defined Wall Thickness

Tool Output

AX : Pipe Inside Cross Section Area
ID : Nominal Inside Diameter
OD : Nominal Outside Diameter
OD/tn : Diameter Over Wall Thickness Ratio
tn : Nominal Wall Thickness

CALCULATOR : Single Phase Gas Compressibility Factor [FREE] ±

Calculate single phase gas density and compressibility factor from temperature and pressure, and gas properties for selected gases.

The gas compressibility factor is calculated from the critical point temperature, critical point temperature, and the accentric factor using either the Peng Robinson, Soave, Redlich Kwong or Van Der Waals equations of state (EOS). The compressibility factor calculation is valid for gas phase only. Use the Result Plot option to plot compressibility factor versus pressure and temperature, compressibility factor versus pressure and equation of state type, or compressibility factor versus temperature and equation of state type.

Tool Input

fluidtype : Fluid Type
- SGu : User Defined Gas Specific Gravity
- ωu : User Defined Acentric Factor
- Pcu : User Defined Critical Pressure
- Tcu : User Defined Critical Temperature
eostype : Equation Of State
- Zu : User Defined Compressibility Factor
P : Fluid Pressure
T : Fluid Temperature

Tool Output

ρ : Fluid Density
ω : Accentric Factor
Pc : Critical Point Pressure
Pr : Reduced Pressure
SG : Gas Specific Gravity Relative To Air
Tc : Critical Point Temperature
Tr : Reduced Temperature
Vm : Molar Volume
Z : Compressibility Factor
cvg : Convergence Check
mw : Fluid Molar Mass

CALCULATOR : Single Phase Gas Property [FREE] ±

Calculate single phase gas properties for common gases: argon Ar, n-decane C10H22, ethylene C2H4, ethyl chloride C2H5Cl, ethane C2H6, propene C3H6, propane C3H8, iso-butane C4H10, n-butane C4H10, iso-pentane C5H12, n-pentane C5H12, n-hexane C6H14, n-heptane C7H16, n-octane C8H18, n-nonane C9H20, methyl chloride CH3Cl, methane CH4, chlorine Cl2, carbon monoxide CO, carbon dioxide CO2, hydrogen H2, steam H2O, hydrogen sulphide H2S, hydrogen chloride HCl, helium He, krypton Kr, nitrogen N2, air N2+O2, ammonia NH3, oxygen O2, sulphur dioxide SO2, xenon Xe.

Properties include specific heat constant pressure, specific heat constant volume, specific heat ratio, molar mass, gas constant, gas specific gravity, critical point temperature, critical point pressure, and accentric factor.

Use the Result Table option to display a table of properties versus gas type.

Tool Input

fluidtype : Fluid Type
- Cpu : User Defined Specific Heat Constant Pressure
- Cvu : User Defined Specific Heat Constant Volume
- γu : User Defined Specific Heat Ratio
- SGu : User Defined Specific Gravity
- Pcu : User Defined Critical Point Pressure
- Tcu : User Defined Critical Point Temperature
- ωu : User Defined Accentric Factor

Tool Output

γ : Specific Heat Ratio
ω : Accentric Factor
Cp : Fluid Heat Capacity Constant Pressure
Cv : Fluid Heat Capacity Constant Volume
Pc : Critical Point Pressure
R : Gas Constant
SG : Gas Specific Gravity Relative To Air
Tc : Critical Point Temperature
mm : Fluid Molar Mass