Acoustic and Vibrational Enhanced Oil Recovery. George V. Chilingar

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Acoustic and Vibrational Enhanced Oil Recovery - George V. Chilingar


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is the total weight of the larger per vibrating surface unit area, and h is the reservoir thickness), is a relative coordinate counted measured vertically down from the reservoir upper boundary. If the correlation of friction factor f with G is linear, then Equation (2.31) becomes

      (2.32)image

      where ξ = fm − f0/f0>0 is the relative difference of friction factors at the lower and upper reservoir boundaries. At these boundaries

      (2.33)image

      The former equation is equivalent to Equation for a particle velocity if the friction factor f is replaced with its f0 value for the upper boundary of the reservoir. The other patterns of vibration’s penetration for the subject model of an unconsolidated reservoir are also similar to those established for the particle. Maximum vibration acceleration of the reservoir particles

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      is reached at its lower boundary at the same value of the vibration acceleration of the surface 2= (2)2. At the further increase of Aω2 increase, the reservoir particles accelerations remain unchanged, whereas the velocity and the trajectory radius at a constant vibration amplitude decline with the increase in frequency. Thus, with increasing surface acceleration vibrations 2˂ (2)1 = gf0, the vibrations completely penetrate the entire reservoir thickness, and at 2˃ (2)1, they do only partially. The “penetrating acceleration” with its increasing value Aω2 stabilize at the gf0 level for the upper reservoir’s boundary, and “the velocity and amplitude penetration” declines with increasing frequency, in proportion to ω and ω2.

      The maximum amplitude of relative migrations close to the amplitude of absolute surface vibrations occurs at a sufficiently large value of acceleration 2, when particles of an unconsolidated reservoir remain practically immobile in space.

      A case of rectilinear extensional vibration of the surface displays the same patterns of vibration penetration as the considered case of circular vibrations. Solution of the problem here is more complex than in the case of circular vibration, especially for the second model, because the particle motion occurs with two long or instantaneous stops in each vibration period [5].

      A different situation occurs with the vibration penetration process in individual reservoir layers in a case of transverse surface vibration of one of the layers. Experimental data indicate exponential nature of particles’ vibration amplitude decline with certain distance from the vibrating surface of one of the layers. Let us denote v a pulsating component of the reservoir particle velocity and introduce a function

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      Certain specificity is typical of the vibration penetration dynamics in the cement grouts. The cement grouts are a multi-component medium composed of large and small filling aggregate, cohesive material, and water especially selected by the composition. In the process of mixture preparation, air unavoidably is getting into it. The amount of air in the mixture is relatively small (and is changing in the preparation process). Physicomechanical properties of the mixture and of the solidified cement substantially depend on its contents. As result, there is a rather complex rheological property of the cement mixture. Most important among them are resistance of a dry friction type and also the viscous friction and elasticity (the elasticity is mostly defined by the presence of air component). The vibration causes transformation of the mixture rheological parameters and properties, in particular, its pseudo-fluidization, which provides for the efficient compaction necessary for obtaining a cement with high strength parameters. For this reason, the cement mixture is modeled in theoretical studies as a continuous medium with elastic, plastic, and viscous properties.

      Vibration excitation in oil reservoirs is best studied in cases of power load application directly to the land surface. It is implemented for a directional vibroseismic action on shallow oil accumulations and for a solution of seismic exploration tasks. Of greatest interest are issues of coordinating the sources with the medium from a point of view of the best transformation of the source power in the power of irradiated waves. Reviewed have been the models of spherical sources and sources distributed over the surface of elastic half-space [25]. A solution of the problem of creating efficient method of forming highly directional radiation suggests that the use of acoustic antenna theory constructed for ideal uniform acoustic medium in a case of stratified media results in significant errors. Taking into account vertical nonuniformity of the medium plays an important role for obtaining acceptable practical results. Distribution studies of energy supply arriving in multilayer elastic half-space from a harmonic surface power loading established that, in the multilayer half-space, may exist the frequency range wherein emerge reflected waves with the opposite direction of phase and group velocities.

      An analysis of energy flow lines, which may be strongly involuted up to generating the areas where energy is circulating on closed trajectories, indicated the following. In the vicinity of resonance frequencies, the power flow of these internal circular flows may substantially exceed the flow coming from the source. This indicates a possibility of a vibration source energy accumulation with an unlimited amplitude increase in certain areas of semi-infinite laminated space. In these studies, the actual rocks have been modeled by an elastic medium. The solutions of dynamic problems for elastoporous media are known where, applying the Frenkel-Bio equations was conducted an analysis of the wave field excitation by a load varying in time according to the harmonic law. At that, the excited field energy distribution by the wave type has been estimated.

      Similar tasks related to the half-space force excitement had a practical value for selecting efficient vibroseismic action regimes on shallow oil reservoirs using powerful surficial vibration sources developing force up to 106H.

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