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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