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Acoustic and Vibrational Enhanced Oil Recovery. George V. ChilingarЧитать онлайн книгу.

Acoustic and Vibrational Enhanced Oil Recovery - George V. Chilingar


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be essential for petroleum migration (Powers, 1967 [25]; Burst, 1969 [8]; Perry and Hower, 1972 [24]). On the other hand, Aoyagi and Asakawa (1980) [2] concluded that both the interlayer and interstitial water expelled during the middle stage of diagenesis were responsible for oil migration. On the other hand, McAuliffe (1966) [23] has objected to these opinions on the basis that oil is only very slightly soluble in water. Also, some geologists have favored the migration theories based on the movement of oil and gas due to the capillary phenomena, buoyancy effect, and gas expansion, which are generally independent of the movement of water (Dickey, 1975 [12]). Some migration of oil could also occur in a gaseous form (Chilingar and Adamson, 1964 [9]).

      Based on extensive observations, shales composed of non-expandable clays such as kaolinite and illite did not act as source rocks, because of the absence of water necessary to push out the oil (Chilingar and Knight, 1960 [11]; Aoyagi et al., 1975 [4]). Also, many undercompacted (overpressed) shales did not act as source rocks, because compaction mechanisms were not operative to squeeze the oil into the reservoir rocks.

      It is necessary to establish what conditions existed during the primary migration of oil (from the source rocks to reservoir rocks) compared to those during the secondary migration of oil (during production) to make the former so much more efficient. Several possible explanations are presented below. Among them are (1) seismic activity (earthquakes), (2) intense electrokinetics, (3) Earth tides, (4) compaction, and (5) migration in a gaseous form.

       1.1.1 Seismicity

      According to the site http://www.iris.washington.edu/SeismiQuery/events.htm, 66 earthquakes with magnitudes 2 or higher occurred over the globe on average per night for the period from 01.01.2000 to 01.01.2010.

      Assuming that the seismic activity of the planet Earth was the same as at the beginning of the 21st century, one can calculate how many earthquakes occurred during the Paleozoic, Mesozoic, and Cenozoic times:

       In the Paleozoic 69,507,200 million

       In the Mesozoic 27,429,750 million

       During the Cenozoic 7,924,150 million

      On considering precursor activity of earthquakes, the minimum frequency oscillations in the number of earthquakes, and gravity attraction of the Sun and the Moon, then the volume of fluid movements due to dynamic forces in the migration routes in the geological past was immense (Fedin et al., 2013 [14]).

      The physical theory behind the application of seismic vibration to increase production was discussed in detail by Beresnev and Johnson (1994) [5], Beresnev (2006) [6], Kouznetsov et al. (1998) [18], (2001) [19], (2002) [20], Pride et al. (2008) [26], and Fedin et al., (2013) [14].

       1.1.2 Electrokinetics

Schematic illustration of electrokinetic double layer.

      Upon application of direct electric current, the mobile double-layer moves toward the cathode, dragging the free water. A schematic diagram of EEOR field setup, as used by Wittle et al. (2008) [38] and (2011) [39] in Canada and California oil fields, is presented in Figure 1.3.

      In case where imposed electric potential gradient, E, is in the same direction as the pressure drop (Δp), the total flow rate (qt) upon application of D.C. current is as follows:

Schematic illustration of EEOR Electrical Enhanced Oil Recovery electrode arrangement in oil fields.

      (1.2)image

      and

      (1.3)image

      where qi is the initial hydrodynamic stabilized flow rate:

      (1.4)image

      Thus, the possible existence of strong D.C. current in the rocks during the geologic past could have facilitated the movement of fluids (Ambah et al., 1965 [1]).


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