Abstract
A scheme is developed for the comparative analysis of seismic technologies of oil recovery enhancing by the distinguished features.
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A. F. Kosolapov, A. I. Kuznetsov, and N. N. Mukhametdinov, Current State of Vibrowave Technology of Oil Recovery Intensification [in Russian], AIS, Tver (2000).
N. F. Kagarmanov, V. P. Dyblenko, I. A. Tufanov, and D. N. Repin, “Basic research trend for applying wave processes to oil recovery,” in: Control of Oilfield Development in Bashkiria at the Stage of High Watering. Collected Works [in Russian], No. 73, BashNIPIneft, Ufa (1985).
V. P. Dyblenko, R. N. Kamalov, R. Ya. Sharifulin, and I. A. Tufanov, Production Rate Improvement and Reactivation of Wells by Vibrowave Action [in Russian], Nedra-Biznestsentr, Moscow (2000).
B. F. Simonov, E. N. Cherednikov, S. V. Serdyukov, et al., “Technology of vibroseismic action on oil reservoirs from the daylight surface to enhance the oilfield recovery,” Neft. Khoz., No. 4 (1998).
V. N. Sorokin, “Dynamics of hydromechanical sources of seismic waves with power closure to the medium, ” Theses ofCand. Tech. Sci. [in Russian], OGU, Omsk (2004).
A. P. Malakhov, “High-frequency electrodynamic vibrating sources,” Elektrotekhnika, No. 9 (2003).
M. I. Balashkad, Yu. N. Andreev, and V. A. Kazanin, “Bottomhole zone treatment by pulsed pressure, ” Neft. Khoz., No. 8 (1990).
E. M. Simkin, “Vibroseismic method to increase production rate of watered oil and gas reservoirs, ” Neftegaz. Tekhn., No. 2 (1998).
V. P. Vagin, E. M. Simkin, and M. L. Surguchev, “USSR Author’s Certificate No. 1710709. Method of wave action on a reservoir and the device for its realization,” Byull. Izobret., No. 5 (1992).
I. M. Nazmiev, S. V. Andreitsev, and A. V. Goryunov, “Low-frequency impact-wave action as an effective method to enhance the oilfield recovery,” Geolog., Geofiz. Razrab. Neft. Mestorozhd., No. 12 (1997).
A. Drozdov, “Promising technologies of oil recovery with the use of downhole pumps. Circular,” Neft Gaz, No. 6 (2003).
V. P. Vagin, “Russian Federation Patent No. 95104938. Method of wave action on an oilfield and the device for its realization,” Byull. Izobret., No. 2 (1997).
S. Kostrov and P. Roberts, “In situ seismic Shockwaves,” Oil & Gas Journal, Sept. 3 (2001).
Yu. S. Ashchepkov, G. V. Berezin, and M. Yu. Ashchepkov, “Russian Federation Patent No. 2136851. Well operation method. Part III,” Byull. Izobret., No. 27 (1999).
M. Yu. Ashchepkov, Yu. S. Ashchepkov, and G. V. Berezin, New Resource-saving Ttechnology of Oil Recovery Enhancing and Production Intensification [in Russian], OAO VNIIOENG, Moscow (2001).
K. M. Garifov, R. G. Abdulkhairova, L. A. Petrova, and R. A. Maksutov, “Implications of thermogas chemical action on a reservoir,” Neft. Khoz., No. 9 (1980).
Ya. I. Fridlyander, Perforating Equipment and Its Application to Wells [in Russian], Nedra, Moscow (1985).
Sh. F. Takhtudinov, A. Kh. Kadyrov, M. M. Zalyatov, Z. N. Ziyakaev, and I. V. Sablin, “Russian Federation Patent No. 2138620. Downhole sucker-rod pump. Part II,” Byull. Izobret., No. 27 (1999).
Sh. F. Takhtudinov, A. Kh. Kadyrov, M. M. Zalyatov, Z. N. Ziyakaev, and I. V. Sablin, “Russian Federation Patent No. 2138621. Downhole sucker-rod pump. Part II,” Byull. Izobret., No. 27 (1999).
V. B. Tal’yanov, M. V. Zotov, N. A. Nikolaev, and R. V. Kitmanov, “Russian Federation Patent No. 2060357. Cable-aided facility to influence a reservoir from a well,” Byull. Izobret., No. 14 (1996).
A. A. Popov, Impact Action on a Well Bottom Zone [in Russian], Nedra, Moscow (1990).
“Pulsed elastic action set “Pritok-1” to affect oil-and-gas pools,” Geofiz. Vestnik EAGO, No. 11 (1997).
S. M. Gadiev, Application of Vibration in Oil Recovery [in Russian], Nedra, Moscow (1977).
“Hydraulic acoustic generator GAG-1” Inform. Listok, Bashtekhinform, Nos. 95–14, Series R.27.0181.
V. V. Dryagin, V. I. Oposhnyan, and V. A. Glukhikh, “Acoustic action equipment AAV-320 to clean bottomhole zone,” Karotazhnik, No. 46 (1998).
R. V. Westmark, J. F. Berett, and D. R. Melony, “Oil inflow intensification by vibration action on well bottom in order to increase oil withdrawal,” World Petroleum, No. 3 (2002).
V. S. Averbakh, V. V. Artel’nyi, B. N. Bogolyubov, A. L. Virovlyanskii, and V. I. Talanov, Powerful Intrawell Source of Seismic Acoustic Waves [in Russian], IPF RAN, Nizhni Novgorod (2002).
A. G. Mukha and N. A. Kapustyanskaya, “USSR Author’s Certificate No. 954562. “Device for cleaning well bottom zone,” Byull. Izobret., No. 32 (1982).
R. Ya. Sharifulin, V. P. Dyblenko, and I. A. Tufanov, “USSR Author’s Certificate No. 1727431. Device for wave treatment of a reservoir,” Byull. Izobret., No. 14 (1992).
A. S. Alekseev, V. N. Kashun, V. V. Kovalevskii, I. S. Chichinin, and V. I. Yushin, “Vibrating sources of seismic waves,” in: Active Seismology with Powerful Vibration Sources [in Russian], IVMiMG SO RAN, Novosibirsk (2004).
M. V. Kurlenya and S. V. Serdyukov, “Intensification of oil recovery under low-frequency vibroseismic action,” Gorn. Inform.-Analit. Byull, No. 5 (2004).
“Vibroseismic action on production reservoirs from the daylight surface. Circular,” Neft. Khoz., No 5 (1996).
S. V. Serdyukov and E. N. Cherednikov, “Hydromechanical pressure pulser for borehole wave action on the production oil reservoirs,” in: Proceedings of the 2nd International Conference on Dynamics and Strength of Machines [in Russian], 1, IGD SO RAN, Novosibirsk (2003).
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Translated from Fiziko-Tekhnicheskie Problemy Razrabotki Poleznykh Iskopaemykh, No. 3, pp. 63–75, May–June, 2006.
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Savchenko, A.V. Comparative analysis of seismic methods for oil recovery enhancing. J Min Sci 42, 257–268 (2006). https://doi.org/10.1007/s10913-006-0054-3
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DOI: https://doi.org/10.1007/s10913-006-0054-3