Liquids - Densities vs. Pressure and Temperature Change

Densities and specific volume of liquids vs. pressure and temperature change.

Density

The density of a liquid can be expressed as

ρ = m / V (1)

where

ρ = density of liquid (kg/m³)

m = mass of the liquid (kg)

V = volume of the liquid (m³)

The inverse of density is specific volume:

v = 1 / ρ

= V / m (2)

where

v = specific volume (m³/kg)

Volume and change in Temperature

When temperature increases - most liquids expands:

dV = V₁ - V₀

= V₀ β dt

= V₀ β (t₁ - t₀) (3)

where

dV = V₁ - V₀= change in volume - difference between final and initial volume (m³)

β = volumetric temperature expansion coefficient (m³/m^{3 o}C)

dt = t₁ - t₀ = change in temperature - difference between final and initial temperature (^oC)

(3) can be modified to

V₁ = V₀ (1 + β (t₁ - t₀)) (3b)

Density and change in Temperature

With (1) and (3b) the final density after a temperature change can be expressed as

ρ₁ = m / (V₀ (1 + β (t₁ - t₀))) (4)

where

ρ₁ = final density (kg/m³)

- or combined with (2)

ρ₁ = ρ₀ / (1 + β (t₁ - t₀)) (4b)

where

ρ₀ = initial density (kg/m³)

Volumetric Temperature Coefficients - β

water : 0.0002 (m³/m^{3 o}C) at 20^oC
ethyl alcohol : 0.0011 (m³/m^{3 o}C)
volumetric expansion coefficient for some commonly used materials

Note! - volumetric temperature coefficients may vary strongly with temperature.

Density and change in Pressure

The influence of pressure on the volume of a liquid can be expressed with the three dimensional Hooke's law

E = - dp / (dV / V₀)

= - (p₁ - p₀) / ((V₁ - V₀) / V₀) (5)

where

E = bulk modulus - liquid elasticity (N/m²)

The minus sign corresponds to the fact that an increase in the pressure leads to a decrease in volume.

With (5) - the final volume after pressure change can be expressed as

V₁ = V₀ (1 - (p₁ - p₀) / E) (5b)

Combining (5b) with (1) - the final density can be expressed as:

ρ₁ = m / (V₀ (1 - (p₁ - p₀) / E)) (6)

- or combined with (2) - the final density can be expressed as

ρ₁ = ρ₀ / (1 - (p₁ - p₀) / E) (6b)

Bulk Modulus Fluid Elasticity some common Fluids - E

water : 2.15 10⁹(N/m²)
ethyl alcohol : 1.06 10⁹ (N/m²)
oil : 1.5 10⁹ (N/m²)

Note! Bulk modulus for liquids varies with pressure and temperature.

Bulk modulus for water - Imperial Units

Water - bulk modulus - psi

Bulk modulus for Water - SI units

Water - bulk modulus - GPa

Density of a fluid changing both Temperature and Pressure

The density of a fluid when changing both temperature and pressure can be expressed combining (4b) and (6b):

ρ₁ = ρ_{1(from eq.1)} / (1 - (p₁ - p₀) / E)

= ρ₀ / (1 + β (t₁ - t₀)) / (1 - (p₁ - p₀) / E) (7)

Example - Density of Water at 100 bar and 20^oC

density of water 0^oC: 999.8 (kg/m³)
expansion coefficient of water at 10^oC: 0.000088 (m³/m³^oC) (average value between 0 and 20^oC)
bulk modulus of water: 2.15 10⁹(N/m²)

Density of water can be calculated with (3):

ρ₁ = (999.8 kg/m³) / (1 + (0.000088 m³/m³^oC) ((20 ^oC) - (0 ^oC))) / (1 - ((100 10⁵ Pa) - (1 10⁵ Pa)) / (2.15 10⁹N/m²))

= 1002.7 (kg/m³)

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Liquids - Densities vs. Pressure and Temperature Change

Densities and specific volume of liquids vs. pressure and temperature change.

Density

Volume and change in Temperature

Density and change in Temperature

Volumetric Temperature Coefficients - β

Density and change in Pressure

Bulk Modulus Fluid Elasticity some common Fluids - E

Bulk modulus for water - Imperial Units

Bulk modulus for Water - SI units

Density of a fluid changing both Temperature and Pressure

Example - Density of Water at 100 bar and 20^oC

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Liquids - Densities vs. Pressure and Temperature Change

Densities and specific volume of liquids vs. pressure and temperature change.

Density

Volume and change in Temperature

Density and change in Temperature

Volumetric Temperature Coefficients - β

Density and change in Pressure

Bulk Modulus Fluid Elasticity some common Fluids - E

Bulk modulus for water - Imperial Units

Bulk modulus for Water - SI units

Density of a fluid changing both Temperature and Pressure

Example - Density of Water at 100 bar and 20oC

Related Topics

Related Documents

Engineering ToolBox - SketchUp Extension - Online 3D modeling!

Privacy

Advertise in the ToolBox

Citation

Scientific Online Calculator

Example - Density of Water at 100 bar and 20^oC