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Disclaimer: Not to be confused with Compressibility factor .
A measure of resistance of a Continuum body to compression.A measure of isothermal relative of relative change in density
or molar volume under a unit pressure variation: LaTeX Math Block |
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c\beta = \frac{1}{\rho} \left( \frac{\partial \rho}{\partial p} \right)_T = - \frac{1}{V_m} \left( \frac{\partial V_m}{\partial p} \right)_T |
Compressibility measures resistance of Continuum body to compression/decompression and is inverse to Bulk modulus :
LaTeX Math Block |
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c = \frac{1}{K} |
Compressibility depends on the thermodynamic conditions at which it is measured and as such is not a material property.Compressibility is related to Z-factor
The two major medium compression/decompression processes are isothermal and isentropic which result in different values of compressibility:
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cZc(p)p-1Zfrac{dZ}{dp}cZc(p) -BdBdp} The most popular material compressibilities are:
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Both and are not dependent on the amount of chemical substance and defined under specific conditions of thermodynamic process and as such are the material properties and properly tabulated for the vast majority of materials.
In engineering practise, when the term Compressibility is used as material property it normally means Isothermal Compressibility: .
Compressibility is related to Z-factor and Formation Volume Factor (FVF)
as:...
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cTc_T\rho\left({\partialrho\partial p} \right)_TcSc_S\rho} \left(\partial \rho\partial p} \right)_S Warning |
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In Thermodynamics the compressibility is denoted by while intensive heat capacities are denoted by with corresponding subscript.
On the other hand Petroleum Industry is traditionally using symbol to denote compressibility which often lead to confusion with heat capacity. |
See also
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Physics / Mechanics / Continuum mechanics / / Continuum body
[ Isothermal Compressibility ][ Isentropic Compressibility ]
[Fluid compressibility] [Pore compressibility] [Total compressibility]
[ Bulk modulus (K or B)]