DocumentCode
2025167
Title
Generalization of the Biot´s equations for account of fluid shear relaxation
Author
Maximov, G.A.
Author_Institution
Moscow Eng. Phys. Inst., Moscow, Russia
fYear
2008
fDate
3-6 June 2008
Firstpage
113
Lastpage
115
Abstract
Based on the generalized variational principle the system of the generalized Biot equations is derived for consistent account of fluid shear relaxation. Account of shear viscosity relaxation leads to existence of a couple shear propagation modes additionally to a couple of longitudinal modes as in the Biot approach. At this the one shear mode is an acoustical one, while the other shear mode has diffusive behavior at low frequencies. Phase velocity and attenuation factor for the second shear mode linearly depend on frequency in the low frequency limit that is different from analogous behavior of diffusive longitudinal mode with the root frequency behavior of analogous values.
Keywords
flow; hydrodynamics; relaxation; rheology; viscosity; Biot equations; fluid shear relaxation; phase velocity; root frequency; shear propagation; shear viscosity relaxation; Acoustic propagation; Attenuation; Diffraction; Frequency; Integral equations; Physics; Reservoirs; Rheology; Tensile stress; Viscosity;
fLanguage
English
Publisher
ieee
Conference_Titel
Days on Diffraction, 2008. DD '08. Proceedings of the International Conference
Conference_Location
St. Petersburg
Print_ISBN
978-5-9651-0277-8
Type
conf
Filename
5072324
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