Диссертация (1172990), страница 22
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- стр. 236.113. Эрлагер Р.мл. Гидродинамические методы исследования скважин. –МосквИжевск: Институт компьютерных исследований, 2007. – 512с.114. Яруллин А. Р., Гаязов М. С., Тихонов И. Н. Перспективыиспользования пакерных расходомерных систем в условиях действующихгоризонтальных скважин// НТВ Каротажник. – 2018. - №284. - стр.43-55.115. Agnew B.G. Evaluation of Fracture Treatments With TemperatureSurveys , SPE-1287 // Journal of Petroleum Technology. - 1966. - №17. - pp. 892-898.116. Ahmed U., Newberry, B.M., Cannon, D.E. Hydraulic Fracture TreatmentDesign of Wells With Multiple Zones , SPE-13857// Society of Petroleum Engineers.1985.
- pp. 1-8117. Algeroy J., Lovell J., Tirado G, Meyyappan R., Brown G., GreenawayR.,Carney M.,Meyer J.H.Davies J.E., Pinzon I.D. Permanent Monitoring: Taking It to theReservoir. - : Oilfield Review, 2010. - pp. 34-41.118. Amith M.B., Hannah R.R High-Permeability Fracturing: The Evolution ofa Technology, SPE - 27984// Journal of Petroleum Technology. July 1996. - Society ofPetroleum Engineers. - pp. 628-633119.
Araya A., Ozkan, E. An Account of Decline-Type Curve Analysis ofVertical, Fractured, and Horizontal Well Production Data , SPE 77690// SPE AnnualTechnical Conference and Exhibition. - San Antonio, Texas: , 2002.149120. Arps J.J. Analysis of Decline Curves// Trans. AIME. - 1945. - pp. 228247.121. Bateman K., Molenaar M. M., Brown M. D. Lessons Learned from Shell’sHistory of Casing Conveyed Fiber Optic Deployment, 167211-MS SPE ConferencePaper \\ SPE Unconventional Resources Conference Canada. - Calgary, Alberta,Canada: , 2013. - pp. 1-8.122. Blasingame T.A., Lee W.J.
Properties of Homogeneous Reservoirs,Naturally Fractured Reservoirs, and Hydraulically Fractured Reservoirs From DeclineCurve Analysis, SPE 15018 // Permian Basin Oil and Gas Recovery Conference. Midland, Texas. – 1986123. Bourdarot G. Well testing: interpretation methods. - Paris: , 1998. – 337p.124. Bourdet D. Well test analysis: the use of advanced interpretation models.2002. - 426 p.125. Bourdet D., Ayoub J.A., Pirard Y.M. Use of Pressure Derivative in WellTest Interpretation, SPE-12777 // SPE Formation Evaluation. - June 1989. – 2. - №.
4.- p. 293-302126. Davies D.R., Roodhart, L.P. Field Development by Hydraulic Fracturing:A High-Technology Success Story, SPE-22392 // Society of Petroleum Engineers.1992. - pp. 1-20.127. Davis P.M., Surface Deformation Associated with Dipping Hydrofracture// Journal of Geophysical Research. July 1983.
- 88 : Vol. B7. - pp. 5826-5834128. Deruck B., Ehlig Economides C., Joseph J. Test Design and Analysis. - :Oilfield Review, 1992.129. Dobkins T.A. Improved Methods To Determine Hydraulic FractureHeight, SPE 10130.- 1981.130. Doublet D.E., Pande P.K., McCollum T.J., Blassingame T.A., DeclineCurve Analysis Using Type Curves-Analysis of Oil Well Production Data Using150Material Balance Time: Application to Field Cases, SPE 28688// Society of PetroleumEngineers. - 1994.131. Dozier G.C. "Don't Let the Temperature Log Fool You"-False Indicationsof Height Containment From Case Studies in a Tectonically Stressed Environment,SPE-25869 // Society of Petroleum Engineers, 2009.
- p. 346-356151. Earlouger R.C.Advances in Well Test Analysis, Momograph Series, SPE, Dallas, 1977132. Earlougher R.C. Advances in well test analysis // Monograph series, SPE.– 1944133. Eclipse Technical Description. Schlumberger, 2009. - p. 1696134. Economides M., Nolte K. Reservoir stimulation. - Chichester : John Wiley& Sons Ltd, 2000. - 3rd : p. 823135. Economides M.J., Observations and Recommendations in the Evaluationof Tests of Hydraulically Fractured Wells // SPE.
– 1987136. Fetkovich M.J. Decline Curve Analysis Using Type Curves // Journal ofPetroleum Technology. - June 1980. - p. 1065-1077137. Fisher K., Warpinski N. Hydraulic Fracture-Height Growth: Real Data,SPE-145949 // Society of Petroleum Engineers. - pp. 1-12.138. Fraser C.D. and Petitt, B.E., Results of a Field Test to Determine the Typeand Orientation of a Hydraulically Induced Formation Fracture // Journal of PetroleumTechnology.
1962. - 5 : T. 14.139. Gallivan J.D., Kilvington, L.J., Shere, A.J. Experience With PermanentBottomhole Pressure/Temperature Gauges in a North Sea Oil Field, SPE 13988 // SPEProduction Engineering. - 1988. - pp. 637-642.140. Geertsma J., de Klerk, L.R. A Rapid Method of Predicting Width andExtent of Hydraulically Induced Fractures // Journal of Petroleum Technology. 1969. стр. 1571-1581.151141.
Gringarten A.C., Ramey, H.J. Jr., The Use of Source and Green’sFunctions in Solving Unsteady Flow Problems in Reservoirs // SPE Journal. - 1973. 13: Т. 5. - p. 285-296142. Gringarten A.C., Reservoir Limit Testing For Fractured Wells // SPEAnnual Fall Technical Conference and Exhibition. - Houston, Texas. -1978. - SPE7452143. Gringarten A.C., Ramey H.J. Jr.
and Raghavan R. Unsteady State PressureDistributions Created by a Well with a Single Infinite-Conductivity Vertical Fracture//SPE Journal. - 1974. - 14: Vol. 4. - pp. 347-360.144. Guyod H Temperature Well Logging (in 7 parts). : Oil Weekly, 1946.145. Harrison E., Kieschnick, W.F. Jr. and McGuire, W.J. The Mechanics ofFracture Induction and Extension // Petroleum Transactions, AIME. 1954. - T.
201. стр. 252-263.146. Horne R.N. Modern Well Test Analysis. - : Petroway Inc., 1995. – 257p.147. Kading H.W, Hutchins J.S. Temperature Surveys: The Art ofInterpretation. - : American Petroleum Institute. – 1969148. Kremenetskiy M.I., Kokurina V.V. Well-Test Interpretation with Behindthe-Casing Crossflow, SPE 115323\\ Society of Petroleum Engineers. - 2008.
-- pp. 111.149. Lee J. Well Testing. - 1982. - SPE Textbook Series: Vol. 1150. Marzooqi A., Fahim M., Keshka A., Alvi A., Salem D., Brown G., NeyaeiF.A. Distributed Temperature Sensing (DTS) Enables Injectivity Visualization ToEnhance Stimulation Efficiency, SPE 141239 // Society of Petroleum Engineers. 2011.
- pp. 1-13.151. Maslennikova Y., Bochkarev V.V., Savinkov A.V., Davydov D.A.Spectral Noise Logging Data Processing Technology, SPE 162081-RU // SPE RussianOil and Gas Exploration and Production Technical Conference and Exhibition. Moscow, Russia: , 2012. - pp. 1-6.152152. Meyer B.R., Hagel, M.W. Simulated Mini-Frac Analysis // Journal ofCanadian Petroleum Technology. 1989. - 5 : Vol. 25.153. Osama S. Karaman, Roy L. Kutlik, Ed L. Kluth.
A Field Trial to Test FiberOptic Sensors for Downhole Temperature and Pressure Measurements, West CoalingaField, California, SPE 35685 // SPE Western Regional Meeting. - Anchorage, Alaska:, 1996. - pp. 1-7.154. Nolte К.G. Determination of Fracture Parameters from FracturingPressure Decline Analysis, SPE 8341// Society of Petroleum Engineers. - 1979. - pp. 116.155.
Nolte K.G. Background for After-Closure Analysis of Fracture CalibrationTests, SPE 39407// Society of Petroleum Engineers. - 1997. - pp. 1-24.156. Popov Yu., Parshin A., Chekhonin E., Gorobtsov D., Miklashevskiy D.,Korobkov D., Suarez-Rivera R., Green S. Rock Heterogeneity From Thermal ProfilesUsing an Optical Scanning Technique ARMA-2012-509 //American Rock MechanicsAssociation. - 2012.
- pp. 1-8.157. Soliman M.Y., Craig D., Adams D., Bartko K., Rahim Z., Ansah J. NewMethod for Determination of Formation Permeability, Reservoir Pressure, and FractureProperties from a Minifrac Test, ARMA/USRMS 05-658 //American Rock MechanicsAssociation. - 2015. - pp. 1-15.158. Wright C.A., Davis, E.J., Weijers, L., Golich, G.M., Ward, J.F.,Demetrius, S.L., Minner, W.A., Downhole Tiltmeter Fracture Mapping: A New Toolfor Directly Measuring Hydraulic Fracture Dimensions , SPE-49193. : Society ofPetroleum Engineers, 1998.159.
Xinyang Li, Ding Zhu. Temperature behavior during multistage fracturetreatments in horizontal wells, SPE – 181876// Society of Petroleum Engineers. - 2017.- pp. 1-17.153.
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