Difference between revisions of "Multi-phase fluid modulus"

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<math>\frac{1}{\kappa_f (P,T)}=  \sum_{i}\frac{S_i}{\kappa_i(P,T)}</math>
 
<math>\frac{1}{\kappa_f (P,T)}=  \sum_{i}\frac{S_i}{\kappa_i(P,T)}</math>
  
Fluid bulk modulus of a pore filling fluid it a harmonic sum of it's components. The bulk modulus of any given fluid is a function of Pressure ''P'' and temperature ''T''. ''Si'' is the volume fraction of fluid ''i'' in the pore space (saturation). Note <math> \sum_{i}\{S_i}=1 </math>
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Fluid bulk modulus of a pore filling fluid it a harmonic sum of it's components. The bulk modulus of any given fluid is a function of Pressure ''P'' and temperature ''T''. ''Si'' is the volume fraction of fluid ''i'' in the pore space (saturation), where <math> \sum_{i}\S_i=1 </math>

Revision as of 21:26, 18 February 2011

Fluid bulk modulus of a pore filling fluid it a harmonic sum of it's components. The bulk modulus of any given fluid is a function of Pressure P and temperature T. Si is the volume fraction of fluid i in the pore space (saturation), where