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Method and device for calculating acoustic wave velocity in porous medium containing non-Newtonian fluid

A non-Newtonian fluid and porous medium technology, applied in the field of seismic petrophysics, can solve the problems of the complexity of oil and gas molecular structure, the inability to accurately and completely describe the wave field propagation process of tight reservoir rocks, and the inability to meet the application of heterogeneous and complex porous media.

Active Publication Date: 2018-02-02
PETROCHINA CO LTD
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Problems solved by technology

However, due to the complexity of the molecular structure of oil and gas in the dense pore structure, it is difficult to describe it with the idealized classical non-Newtonian model in textbooks, that is, the constitutive relation The derivative order α of medium strain rate with respect to time may not be a positive integer
[0007] The inventors have found that there are at least the following problems in the prior art: the Viscous Newtonian fluid model is used in the Biot wave equation for porous media, and this assumption cannot satisfy the application of heterogeneous and complex porous media
In addition, the Biot theory introduced into Maxwell's fluid assumes that the pores are filled with an idealized viscoelastic fluid, but the constitutive relationship of the actual fluid is unknown. If this idealized assumption is not satisfied, it cannot be accurately and completely described in tight reservoir rocks. The wave field propagation process

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  • Method and device for calculating acoustic wave velocity in porous medium containing non-Newtonian fluid

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Embodiment Construction

[0051] The embodiments of the application provide a method and device for calculating the acoustic wave velocity of porous media containing non-Newtonian fluid.

[0052] In order to enable those skilled in the art to better understand the technical solutions in this application, the following will clearly and completely describe the technical solutions in the embodiments of this application with reference to the drawings in the embodiments of this application. Obviously, the described The embodiments are only a part of the embodiments of the present application, rather than all the embodiments. Based on the embodiments in this application, all other embodiments obtained by those of ordinary skill in the art without creative work should fall within the protection scope of this application.

[0053] figure 1 It is a flowchart of an embodiment of the method for calculating the acoustic wave velocity of porous media containing non-Newtonian fluid in this application. Such as figure 1 ...

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Abstract

The embodiment of the invention discloses a method and device for computing porous medium acoustic velocity containing non-Newtonian fluid. The method comprises steps of: establishing a porous medium micro-tube flow model, deriving dissipation energy inside the non-Newtonian fluid, shear stress between fractional order derivative Maxwell fluid and solid, and the average flow velocity of the non-Newtonian fluid according to the flow model, and computing a fluid-solid relative motion energy dissipation factor according to the shear stress and the average flow velocity; establishing a porous medium wave equation containing a non-Newtonian fluid effect on the basis of the fluid-solid relative motion energy dissipation factor; performing plane-wave analysis on the established porous medium wave equation to obtain a dispersion relation containing the non-Newtonian fluid effect and computing longitudinal wave velocity dispersion and attenuation. The method and device for computing porous medium acoustic velocity containing non-Newtonian fluid may relatively accurately predict the dispersion and the attenuation of the acoustic velocity in an unconventional oil and gas reservoir.

Description

Technical field [0001] This application relates to the technical field of seismic rock physics, and in particular to a method and device for calculating the acoustic velocity of porous media containing non-Newtonian fluid. Background technique [0002] Tight oil reservoirs have complex geological characteristics. The hydrocarbon-generating reservoir rocks contain heterogeneous phases such as mineral particles and solid organic matter, with strong heterogeneity and high capillary pressure. This type of rock mainly develops micro-nano-scale pore interconnected systems, with complex pore structure and poor connectivity. The pore size ranges from nanometers to micrometers, and the porosity is low (generally less than 10%), and the permeability is generally less than 0.1mD. These factors cause the complex fluid permeability behavior in the reservoir pores to often not follow the constitutive relationship of Newtonian fluids, which brings challenges to conventional methods such as seis...

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01V1/30
CPCG01V1/303
Inventor 曹宏孙卫涛卢明辉杨志芳晏信飞李晓明未晛
Owner PETROCHINA CO LTD
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