Abstract
A mathematical model of the high-pressure gas flow in a gas-dynamic system consisting of a vertical well and two horizontal gas-saturated porous formations is considered. The supercompressibility coefficient is assumed to be a known function of the pressure. The total well production rate and the production rates of the formations opened are found as functions of the wellhead pressure.
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References
A.I. Markovskii and V.L. Potemkin, “Production Rate of a Well Opening Two Gas-Bearing Formations,” in Problems of Methods and Novel Technologies of Natural-Gas Field Development [in Russian] (VNIIGAZ, Moscow, 1998), No. 3, 293–301.
A.I. Markovskii, “Identification of Permeabilities of Two Gas-Bearing Formations Opened by a Single Well from Headwell-Pressure and Production-Rate Measurements,” in Problems of Methods and Novel Technologies of Natural-Gas Field Development [in Russian] (VNIIGAZ, Moscow, 1998), No. 3, 306–313.
E.M. Minskii and M.L. Burshtein, “Approximate Calculation of Gas Flow to a Well Simultaneously Draining Several Gas-Bearing Formations,” Trans. Soviet Union Oil Research Institute (VNIIneft) [in Russian], No. 8 (1956).
M.L. Fish, “On the Operation of Two Gas-Bearing Formations by a Single Well,” in Development and Operation of Gas Fields [in Russian] (Trans. Soviet Union Oil Research Institute (VNIIneft), Moscow, 1960), 99–111.
Yu.P. Korotaev and M.M. Kashparov, “Calculation of Well Operating Regimes by the Method of Successive Steady States in Connection with the Simultaneous Development of a Group of Gas-Bearing Formations,” in Collection of Scientific and Technical Studies in Natural-Gas Geology, Development, Transport and Use [in Russian] (Nedra, Moscow, 1968), 174–188.
G.I. Barenblatt, V.M. Entov, and V.M. Ryzhik, Theory of Unsteady Liquid and Gas Flow through Porous Media [in Russian] (Nedra, Moscow, 1972).
Directions for the Complex Investigation of Gas and Gas Condensate Formations and Wells [in Russian], Ed. by G.A. Zotov and Z.S. Aliev (Nedra, Moscow, 1980).
V.V. Latonov and G.R. Gurevich, “Calculation of the Compressibility Coefficient of Natural Gases,” Gazovaya Prom., No. 2, 7–9 (1969).
A.I. Markovskii, “Steady-State Gas Flows in a Vertical Well at High Pressures. 2,” in Scientific Bulletin of Ivano-Frankovsk National Technical Oil and Gas University (IFNTUNG) [in Ukrainian] (Ivano-Frankovsk, 2004), No. 2(6), 30–34.
A.I. Markovskii, “Steady-State Gas Flows in a Vertical Well at High Pressures. 3,” in Scientific Bulletin of Ivano-Frankovsk National Technical Oil and Gas University (IFNTUNG) [in Ukrainian] (Ivano-Frankovsk, 2004), No. 1(7), 17–22.
A.I. Markovskii, “Steady-State Gas Flows in a Vertical Well at High Pressures. 1,” in Scientific Bulletin of Ivano-Frankovsk National Technical Oil and Gas University (IFNTUNG) [in Ukrainian] (Ivano-Frankovsk, 2003), No. 1(5), 25–27.
M.M. Kashparov and G.M. Geresh, “Certain Features of the Development of a Cenomanian Formation of the Yamburg Field,” in Problems of Methods and Novel Technologies of Natural-Gas Field Development [in Russian] (VNIIGAZ, Moscow, 1998), Pt 3, 143–152.
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Original Russian Text © A.I. Markovskii, 2007, published in Izvestiya Rossiiskoi Akademii Nauk, Mekhanika Zhidkosti i Gaza, 2007, Vol. 42, No. 4, pp. 184–191.
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Markovskii, A.I. Stationary production rate of a well draining two gas-bearing formations. Fluid Dyn 42, 673–680 (2007). https://doi.org/10.1134/S0015462807040175
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DOI: https://doi.org/10.1134/S0015462807040175