Applied Technologies and Prospects of Conformance Control Treatments in China | Oil & Gas Science and Technology

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Issue		Oil Gas Sci. Technol. – Rev. IFP Energies nouvelles Volume 65, Number 6, November-December 2010


Page(s)		859 - 878
DOI		https://doi.org/10.2516/ogst/2009057
Published online		01 February 2010

Sydansk R.D., Southwell G.P. (2000) More Than 12 Years’ Experience with a Successful Conformance-Control Polymer- Gel Technology, SPE Prod. Facil. 15, 4, 270-278. [Google Scholar]
Seright R.S. (2003) Washout of Cr(III)-Acetate-HPAM Gels from Fractures, Paper SPE 80200 presented at the SPE International Symposium on Oilfield Chemistry held in Houston, Texas, USA, 5-7 February 2003. [Google Scholar]
Chauveteau G. et al. (2000) Controlling Gelation Time and Microgel Size for Water Shutoff, Paper SPE 59317 presented at the 2000 SPE/DOE Improved Oil Recovery Symposium held in Tulsa, Oklahoma, 3-5 April 2000. [Google Scholar]
Wang D. et al. (2003) Actual Field Data Show that Production Costs of Polymer Flooding can be Lower than Water Flooding, Paper SPE 84849 presented at the SPE International Improved Oil Recovery Conference in Asia Pacific held in Kuala Lumpur, Malaysia, 20-21 October 2003. [Google Scholar]
Song W. et al. (1995) Alkaline-surfactant-polymer Combination Flooding for Improving Recovery of the Oil with High Acid Value, Paper SPE29905 presented at the International Meeting on Petroleum Engineering held in Beijing, PR China, 14-17 November 1995. [Google Scholar]
Grigg R.B., Schechter D.S. (1997) State of the Industry in CO2 Floods, Paper SPE38849 presented at the SPE Annual Technical Conference and Exhibition held in San Antonio, Texas, USA, 5-8 October 1997. [Google Scholar]
Hai Z.X. et al. (1994) Complete Set of Production Techniques of Stabilizing Oil Production while Controlling Water Cut in Low Permeability Reservoirs, J. Petrol. Geol. Oil Field Dev. Daqing 13, 1, 53-55. [Google Scholar]
Wang J.Q. et al. (1995) Production Engineering Role of Reservoir Reconstructive Measures in Stabilizing Oil Production and Controlling Water Cut, J. Petrol. Geol. Oil Field Dev. Daqing 14, 3, 63-64, 15. [Google Scholar]
Zheng Q.Y. et al. (1995) Status and Analysis of Methods and Techniques of Reservoir Stimulation for Enhancing Water Injectivity in Daqing Oil Fields, J. Oilfield Chem. 12, 2, 181-184. [Google Scholar]
Zhang J.C. et al., (2005) Development and Prospect Analysis of Lamadian Oilfield at Extra-High Water Cut Stage, J. Petrol. Geol. Oil Field Dev. Daqing 29, 3, 23-25. [Google Scholar]
Liu X. (Development and Application of the Water Control and Profile Modification Technology in China Oil Fields, Paper SPE 29907 presented at the International Meeting on Petroleum Engineering Held in Beijing, China, 14-17 Nov. 1995. [Google Scholar]
Li G.S. et al. (1996) The Main Results, Technologies, and Resource Potential of Onshore Oil and Gas Exploration in China, J. Fault-Block Oil Gas Field 3, 3, 8-12. [Google Scholar]
Hu J.Y. et al. (1996) What’s New in the Oil-And-Gas-Bearing Basin and Oil Geology Theory of China, J. Fault-Block Oil Gas Field 3, 2, 1-7. [Google Scholar]
Han D.K. et al. (1996) Development Features and Technique Development of Oil & Gas Fields in China, J. Fault-Block Oil Gas Field 3, 3 1-6. [Google Scholar]
Dong L.R. et al. (1996) Genetic Classification and Distribution Characteristics of Continental Petroleum Systems in China, J. Petrol. Exploration Dev. 23, 1, 1-6. [Google Scholar]
Gang Q.L. et al. (1994) Some Views on improved Oil Recovery in Mature Fields in East China, J. Oil Gas Recovery Technol. 1, 2, 1-7. [Google Scholar]
Gang Q.L. et al. (1998) A Survey of Tertiary Recovery Technology in China, J. Oil Gas Recovery Technol. 5, 4, 1-7. [Google Scholar]
Li J.J. et al. (1999) Development of Tertiary Oil Recovery Technology in China, J. Oil Gas Field Surf. Eng. 18, 2, 8-10. [Google Scholar]
Yang Z.Y., et al. (2004) Current Status and Prospect of Combination Flooding at Home and Abroad, J. Petrol. Geol. Oilfield Dev. Daqing 23, 5, 94-96. [Google Scholar]
Sun H.Q. (2006) Practice and Understanding on Tertiary Oil Recovery in Shengli Oilfield, J. Petrol. Exploration Dev. 33, 3, 262-266. [Google Scholar]
Zhang Y.G. (2003) Contradiction and Countermeasure for Chemical Flooding in Shengli Petroliferous Province, J. Oil Gas Recovery Technol. 10, 6, 53-55. [Google Scholar]
Guo S.P. et al. (1997) The Problem of Oil Recovery Succeeding a Polymer Flooding, J. Acta Petrol. Sin. 18, 4, 49-53. [Google Scholar]
Wang Q.M. et al. (1998) Theoretical Research on Polymer Flooding, J. Petrol. Geol. Oilfield Dev. Daqing 18, 4, 1-5. [Google Scholar]
Zhao F.L. et al. (2001) Combination Technique of Secondary Oil Recovery with Tertiary Oil Recovery and its Progress, J. Acta Petrol. Sin. 22, 5, 38-42. [Google Scholar]
Luo Y. et al. (1999) Particulate Type Profile Modification/Water Shutoff Agents Used in Zhongyuan Oilfields, J. Oilfield Chem. 16, 2, 132-133. [Google Scholar]
Liu S.P. (2001) Non-Selective Water Shutoff Agent GWPA-II for Gas Wells and its Uses at Zhongyuan Oilfields, J. Oilfield Chem. 18, 2, 123-126. [Google Scholar]
Liu X.J. et al. (2001) Application of the Super-fine Slurry Plugging Technology in Henan Oilfield, J. Xi’an Petrol. Inst. 16, 6, 62-64. [Google Scholar]
Ren C.J. et al. (2001) Study and Application of Super-fine Slurry Cement, J. Drilling Fluid Completion Fluid 18, 1, 17-20. [Google Scholar]
Zhao C.Q. et al. (2002) Application of Ultra-Fine Cement in Water Shutoff Technology for High Pressure and Low Permeability Oilfield, J. Petrol. Geol. Oilfield Dev. Daqing 21, 1, 65-67. [Google Scholar]
Lu W.G. et al. (2004) Improvement and Uses of Superfine Cement Plugging Technology, J. Oilfield Chem. 21, 1, 29-32. [Google Scholar]
Sarkissian J.D. et al. (2005) Lessons Learned from Four Selective Water Shutoff Treatments in Mature Reservoirs in Maracaibo Lake, Paper SPE 96528 presented at Offshore Europe, 6-9 September 2005, Aberdeen, United Kingdom. [Google Scholar]
Kabir A.H. (2001) Chemical Water & Gas Shutoff Technology - An Overview, Paper SPE 72119 presented at SPE Asia Pacific Improved Oil Recovery Conference, Kuala Lumpur, Malaysia, 6-9 October 2001. [Google Scholar]
Kume N. (2003) An Engineering Approach to Predict Post- Treatment Well Performance Using Selective Chemical Water Shut-Off Techniques: An RPM Example, Paper SPE 84513 presented at SPE Annual Technical Conference and Exhibition, Denver, Colorado, 5-8 October 2003. [Google Scholar]
Zaitoun A. et al. (1999) Water Shutoff by Relative Permeability Modifiers: Lessons from Several Field Applications, Paper SPE 56740 presented at SPE Annual Technical Conference and Exhibition, Houston, Texas, 3-6 October 1999. [Google Scholar]
Stavland A. (2006) How To Apply a Blocking Gel System for Bullhead Selective Water Shutoff: From Laboratory to Field, Paper SPE 99729 presented at SPE/DOE Symposium on Improved Oil Recovery, Tulsa, Oklahoma, USA, 22-26 April 2006. [Google Scholar]
Faber M.J. et al. (1998) Water Shut-off Field Experience with a Relative Permeability Modification System in the Marmul Field (Oman), Paper SPE 39633 presented at SPE/DOE Improved Oil Recovery Symposium, Tulsa, Oklahoma, 19-22 April 1998. [Google Scholar]
Eoff L. et al. (2001) Structure and Process Optimization for the Use of a Polymeric Relative-Permeability Modifier in Conformance Control, Paper SPE 64985 presented at SPE International Symposium on Oilfield Chemistry, Houston, Texas, 13-16 February 2001. [Google Scholar]
Seright R.S., Liang J. (1994) A Survey of Field Applications of Gel Treatments for Water Shutoff, Paper SPE 26991 presented at SPE Latin America/Caribbean Petroleum Engineering Conference, Buenos Aires, Argentina, 27-29 April 1994. [Google Scholar]
Bai B. et al. (2000) Selective Water Shutoff Technology Study and Application of W/O Emulsions, Paper SPE 59320 presented at SPE/DOE Improved Oil Recovery Symposium, Tulsa, Oklahoma, 3-5 April 2000. [Google Scholar]
Qu Z. X. et al. (2002) Laboratory Evaluation on O/W Emulsion for Selective Water Shutoff, Petrol. Drilling Tech. 31, 4, 56-58. [Google Scholar]
Li Y.K. et al. (1997) Pressure Index Decision Technology for Integrated Profile Control in a Block, J. Univ. Petrol., China (Ed. Nat. Sci.) 21, 2, 39-42. [Google Scholar]
Liu Y.Z., Bai B. (2000) Optimization Design for Conformance Control Based on Profile Modification Treatments of Multiple Injectors in a Reservoir, Paper SPE64731 presented at the SPE International Oil and Gas Conference and Exhibition in China held in Beijing, China, 7-10 November 2000. [Google Scholar]
Zhang J.C. (2003) Interwell Potentiometric Testing Technology, Seismol. Geol. 23, 2, 292-300. [Google Scholar]
Liu J.Z. et al. (2004) Micro-seismic monitoring on direction change of hydro-fractured cracks, Petrol. Exploration Dev. 31, 2, 71-73. [Google Scholar]
Shi Y.G. et al. (2003) Mathematical Model to Explain Channels from Well Testings, Oil Drilling Prod. Technol. 25, 3, 48-50 [Google Scholar]
Chen Y.M. et al. (1994) Application of Interwell Tracer Test for Heterogeneous Reservoir Characterization, J. Univ. Petrol., China (Ed. Nat. Sci.) 18, 1, 1-7. [Google Scholar]
Norman C. et al. (2006) A Review of Over 100 Polymer Gel Injection Well Conformance Treatments in Argentina and Venezuela: Design, Field Implementation, and Evaluation, Paper SPE 101781 presented First International Oil Conference and Exhibition in Mexico, Cancun, Mexico, 31 August-2 September 2006. [Google Scholar]
Karaoguz O.K. et al. (2004) Improved Sweep in Bati Raman Heavy-Oil CO2 Flood: Bullhead Flowing Gel Treatments Plug Natural Fractures, Paper SPE 89400 presented at SPE/DOE Symposium on Improved Oil Recovery, Tulsa, Oklahoma, 17-21 April 2004. [Google Scholar]
Wouterlood C.J. et al. (2002) Conformance Improvement with Low Concentration Polymer Gels in a Heterogeneous, Multilayer Reservoir, Paper SPE 75161 presented at SPE/DOE Improved Oil Recovery Symposium, Tulsa, Oklahoma, 13-17 April 2002. [Google Scholar]
Asghari K. et al. (2004) Laboratory Investigation of In-depth Gel Placement for Carbon Dioxide Flooding in Carbonate Porous Media, Paper SPE 90633 presented at SPE Annual Technical Conference and Exhibition, Houston, Texas, 26-29 September 2004. [Google Scholar]
Fielding Jr R.C. et al. (1994) In-Depth Drive Fluid Diversion Using an Evolution of Colloidal Dispersion Gels and New Bulk Gels: An Operational Case History of North Rainbow Ranch Unit, Paper SPE 27773 presented at SPE/DOE Improved Oil Recovery Symposium, Tulsa, Oklahoma, 17-20 April 1994. [Google Scholar]
Diaz D. et al. (2008) Colloidal Dispersion Gels Improve Oil Recovery in a Heterogeneous Argentina Waterflood, Paper SPE 113320 presented at SPE/DOE Symposium on Improved Oil Recovery, Tulsa, Oklahoma, USA, 20-23 April 2008. [Google Scholar]
Song Z.Z. et al. (2003) Separate Zone Plugging and Successive Full Borehole Acidizing in Water Injection Well in Chaheji Oil Field, J. Oilfield Chem. 20, 4, 323-326. [Google Scholar]
Gong X.F. (2004) The Comprehensive Plugging and Acidizing Technology Used for Improving Profile, J. Drilling Prod. Technol. 27, 2, 39-41. [Google Scholar]
Zhao P.C. et al. (2004) Combination of Plugging and Acidization Improves Injection Profile, J. Petrol. Sci. 1, 4, 77-87. [Google Scholar]
Wang Y.F. et al. (2008) Enhanced Oil Production through a Combined Application of Gel Treatment and Surfactant Huff’n’Puff Technology, Paper SPE 112495 presented at the SPE International Symposium and Exhibition on Formation Damage Control, Lafayette, Louisiana, USA, 13-15 February 2008. [Google Scholar]
Shang Z.H. et al. (2007) Development of A New Composite Chemical Oil Displacement Agent and its Application in Block Zhuang 16 of Laohekou Oilfield, J. Chem. Eng. Oil Gas 29, 3, 139-141. [Google Scholar]
Zhao G.Y. (1999) The Application of Interwell Tracer Method in Oilfield Production, J. Petrol. Exploration Dev. 26, 4, 92-95. [Google Scholar]
Han W. et al. (2002) Testing of Breakthrough Flow Channel between Oil and Water Wells by Using Dye Tracer, J. Jianghan Petrol. Inst. 24, 2, 49-50. [Google Scholar]
Wu Z.D. et al. (2007) Application of Interwell Tracer Detection in Complex Small Fault Block Reservoirs, J. Oil Gas Technol. 29, 3, 237-239. [Google Scholar]
Wang; X.Y., et al. (1999) Identification of Watered out Zones by Normal Distribution Method, J. Well Logging Technol. 23, 1, 29-32. [Google Scholar]
Huang H.C. et al. (2002) Several Practical Methods of Identifing Watered-Out Zones in High Salinity Regions, J. Fault-block Oil Gas Field 9, 3, 54-56. [Google Scholar]
Liu H. et al. (2004) Methodologies and Applications of A multiple disciplinary reservoir engineering study for the mature oilfield, Paper SPE87015 presented at SPE Asia Pacific conference on integrated modeling for asset management in Kuala Lumpur, Malaysia, 29-30 March, 2004. [Google Scholar]
Chen T.L. et al. (2005) Microscopic Displacement Mechanism of Weak Gel Flowing in Porous Media, Acta Petrol. Sin. 26, 5, 74-77. [Google Scholar]
Li G.B. et al. (1999) The Application of Weak Gels for Profile Modification in CHAHEJI Oil Field, Oil Drilling Prod. Technol. 21, 4, 111-112. [Google Scholar]
Lai N. (2007) The Appliance of Weak Gels in the Low Permeable Reservoir WU5, Xinjiang Petrol. Sci. Technol. 4, 17, 24-29. [Google Scholar]
Li L.X., Bai B. (1999) Research and Application of Profile Control and Oil Displacement Agent in Deep Reservoir, Oil Drilling Prod. Technol. 21, 6, 51-55. [Google Scholar]
Lv M.S., Zhang H.N. (2004) The Development of Compounded Inorganic Gels, Chem. Eng. Oil Gas 33, 2, 119-120. [Google Scholar]
Ning T.W. (1994) Clay-Based Water Shutoff and Profile Modification Agents Developed and Used in Shengli Oil Fields, Oilfield Chem. 11, 4, 357-361. [Google Scholar]
Sun J. (2003) Experimental Study of Sludge Profile Control Technique Used in Jianghan Oilfield, J. Jianghan Petrol. Inst. 25, 2, 101-102. [Google Scholar]
Chen T.L. (2001) Colloidal Dispersion Gel Used as Permeability Adjusting/Oil Displacing Agent for Sandstone Reservoirs at Fault Block Ma-21, Oilfield Chem. 18, 2, 155-158. [Google Scholar]
Fan Z.Z., Yu Q.S. (2005) Study on Oil-bearing Sludge Profile Control Agent and its Ability Evalutation, J. Zhejiang Univ. 32, 6, 658-662. [Google Scholar]
Sun X.Y. et al. (2004) Profile Modification Technology Using Oil Sludge in the Bin Nan Oilfield, Oil Drilling Prod. Technol. 26, 3, 80-81. [Google Scholar]
Li D.M. (2003) Application and Study on Profile Control Technology Using Oily Sludge, Oil Drilling Prod. Technol. 25, 3, 74-76. [Google Scholar]
Li M.Y., Zheng X.Y., Xiao J.H., Wu Z. (2006) Linked Polymer Solution and its Application in Oil Production, Chemical Industry Press, Beijing, China. [Google Scholar]
Shen G.W. (2003) Study and Application of In-Depth Profile Control Agent for Oily Sluge, Chem. Eng. Oil Gas 32, 6, 381-383. [Google Scholar]
Chen Y.L., Fan C., Yang W.H. (2002) Influence of Fe2+,S2-, Dissolved Oxygen and pH on the crosslinking of Polyacrylamide/Cr3+ Gel, Geol. Sci. Technol. Inf. 21, 2, 61-64. [Google Scholar]
Niu X.L., Zhao G.Y. (2000) Application of Remaining Oil Saturation Testing Technology Using Interwell Tracer in W95 Block, Fault-block Oil Gas Field 7, 4, 48-50. [Google Scholar]
Wu Z.D., Deng G.Y. (2007) Application of Interwell Tracer Detection in Complex Small Fault Block Reservoirs, J. Oil Gas Technol. 29, 3, 237-239. [Google Scholar]
Zhu Y.F. (2007) The Application of the Interwell Tracer Monitoring Technology for Oilfields, Meas. Tech. 2000, 4, 74-75. [Google Scholar]
Huang Q.X., Yang Y.C. (2005) Current Development and Future Direction of Profile Control Techniques in Pucheng Oilfield, J. Offshore Petrol. 25, 3, 61-65. [Google Scholar]
Liu H. et al. (2006) Granular-Polymer Gel Treatment Successful in the Daqing Oil Field, SPE Prod. Operat. 21, 1, 142-145. [Google Scholar]
Liu Y. Z. et al. (1992) Clay Gel for In-depth Fluid Diversion and its Preparation Method, Chinese Patent: CN92106670.8. [Google Scholar]
Zhao F.L. Zhang G.C. (1994) Selection of Profile Control Agents for Blocks BAN-828 and BAN-9 in DAGANG Oil Field, Oilfield Chem. 11, 4, 314-318. [Google Scholar]
Zhou W., Xie C.Y. (1998) Development and Application of Chemical-based Profile Control Technique in Daqing Oil Field, Petrol. Geol. Oilfield Dev. Daqing 17, 3, 32-34. [Google Scholar]
Harry L. et al. (2006) Successful Field Pilot of In-Depth Colloidal Dispersion Gel (CDG) Technology in Daqing Oilfield, SPE Reserv. Eval. Eng. 9, 5, 664-673. [Google Scholar]
Tian Y., Wang L. (2002) Laboratory Development and Successful Application of a Micelle Dispersions System to EOR, Paper SPE 77795 presented at SPE Asia Pacific Oil and Gas Conference and Exhibition, 8-10 October 2002, Melbourne, Australia. [Google Scholar]
Li Y.T. (2003) Synthesis and Performance of an Organic Chrome Crosslinking Agent for In-depth Profile Control, Oilfield Chem. 25, 6, 46-48. [Google Scholar]
Liu K. (2007) Weak Polymer Gel for EOR in Oil Reservoirs with High Temperature and High Salinity in Shengli, Oilfield Chem. 24, 4, 340-343. [Google Scholar]
Wang Y.F., He L. (2005) A Study on the In-depth Profile Control for IOR in a Reservoir after Polymer Flooding, Oilfield Chem. 22, 4, 349-353. [Google Scholar]
Willhite G.P. et al. (2008) Controlling Water Production Using Gelled Polymer Systems, SPE Reserv. Eval. Eng. 11, 3, 454-465. [Google Scholar]
Sydansk R.D. et al. (2005) Characterization of Partially Formed Polymer Gels for Application to Fractured Production Wells for Water-Shutoff Purposes, SPE Prod. Facil. 20, 3, 240-249. [Google Scholar]
Dai C.L. (2001) Studies on the Factors Influencing Aqueous Polyacrylamide/Formaldehyde Gel, Oilfield Chem. 18, 1, 24-26. [Google Scholar]
Li J.Q. (2004) pH Effect on Aqueous Cross-linked Gelled Fractured System, Well Test. 13, 1, 42-43. [Google Scholar]
Tao J.Z., Lou T.J., Liu C.X. (1999) Effect of Produced Water Composition on HPAM/Cr3+ Gel, Oilfield Chem. 16, 3, 32-35. [Google Scholar]
Bai B. et al., (2008) Case Study on Preformed Particle Gel for In-Depth Fluid Diversion, Paper SPE113997 presented at the 2008 SPE Improved Oil Recovery Symposium to be held in Tulsa, OK, April 21-23, 2008. [Google Scholar]
Bai B. et al. (2007) Preformed Particle Gel for Conformance Control: Factors Affecting its Properties and Applications, SPE Reserv. Eval. Eng. 10, 4, 415-422. [Google Scholar]
Bai B. et al. (2007) Preformed Particle Gel for Conformance Control: Transport Mechanism through Porous Media, SPE Reserv. Eval. Eng. 10, 2, 176-184. [Google Scholar]
Tang C.J. (2005) Profile modification and profile modification plus oil displacement technique in the high water cut oilfield in Zhongyuan Oilfield, Petrol. Geol. Oilfield Dev. Daqing 24, 1. [Google Scholar]
Yang X.M. et al. (2004) Low Damage Profile Control Technologies, Drilling Prod. Technol. 27, 6, 90-93 [Google Scholar]
Wang Y., Su J.D. (2008) Study and Application Oil-Bearing Sludge for Profile Control, J. Oil Gas Technol. 30, 4, 159-160. [Google Scholar]
Sun X.M. (2009) Using Oil-Bearing Sludge to Control Profile in Xingnan of Daqing Oilfield, Oil-Gas Field Surf. Eng. 28, 1, 16-17 [Google Scholar]
Xia F.H. et al. (1994) The Use of Ames Test to Monitor The Effect of Composting on The Mutagenicity of Industrial Solid Wastes, J. Nanjing Univ. (Nat. Sci.) 30, 1, 63-68. [Google Scholar]
Wang L.J. et al. (2004) The Hi-tech Research Process of Industrial Solid Waste in China, World Sci.-Tech. Rech. Dev. 26, 1, 17-24. [Google Scholar]
Yang F. et al. (2008) Treatment Technology of Oily Sludge in Long-dong Oilfield, Environ. Prot. Oil Gas Fields 18, 1, 30-32. [Google Scholar]
Li D.M. et al. (2003) Oily Sludge Treatment Technique and Its Application in Henan Oilfield, Environ. Prot. Oil Gas Fields 13, 3, 30-32. [Google Scholar]
Li R.L. et al (2006) Research on Swelling Granular Plugging Agent of Oily Sludge, Environ. Eng. 24, 3, 105-107. [Google Scholar]
Xi F.L. et al. (1998) Preparation and Field Application of Particulated Sludge for Profile Modification, Oilfield Chem. 15, 2, 20-25. [Google Scholar]
Shang Z.H. et al. (2004) Application of Oil-Bearing Sludge Profile Control Technique in Zhuangxi Reservoir, Drilling Prod. Technol. 27, 01, 71-77. [Google Scholar]
Li D.M. et al. (2006) Application And Research of Profile Control of Oily Sludge, Oil Drilling Prod. Technol. 25, 03, 74-86. [Google Scholar]
Liu G.L. et al. (2007) Synthesis and Performance Evaluation of Oily Sludge Swellable Particulate as In-depth Profile Control Agents, Chem. Eng. Oil Gas 36, 1, 66-70. [Google Scholar]
Shen G.W. et al. (2003) Study and Application of in-Depth Profile Control using Oily Sludge, Chem. Eng. Oil Gas 32, 6, 381-383. [Google Scholar]
Sun J. et al. (2003) Experimental Study of Sludge Profile Control Technique Used in Jianghan Oilfield, J. Jianghan Petrol. Inst. 25, 2 101-103. [Google Scholar]
Lu H.G. et al. (2003) Study on Plugging Capacity of Oil - Bearing Sludge as Profile Control Agent, Special Oil Gas Reserv. 10, 4, 73-77. [Google Scholar]
Sun X.J. et al. (1999) Applied Research of Oily Sludge in Oil Field Development, Oil Drilling Prod. Technol. 21, 1, 68-71. [Google Scholar]
Yuan S.Y. et al. (2000) Numerical Simulation Study on Weak Gel Injection, Paper SPE 64921 presented at the SPE Asia Pacific Oil and Gas Conference and Exhibition held in Brisbane, Australia, 16-18 October 2000. [Google Scholar]
Liu J.J. (2002) Pilot Trial of Combination Technique of Secondary and Tertiary Oil Recoveries at Fault Block Tuo- 11S of Shengtuo Oil Field, J. Oilfield Chem. 19, 1, 59-62. [Google Scholar]
Yu C.M. (2006) Application of Combined Secondary and Tertiary Oil Recovery Techniques in Pucheng Oilfield, J. Fault-Block Oil Gas Field 13, 2, 59-61. [Google Scholar]
Mao Y. (2003) Technology Combined Secondary Oil Recovery with Tertiary Oil Recovery for Application and Research in Ng32 Layer in the Northwest of East Chengdong Oilfield, J. Fault-Block Oil Gas Field 10, 6, 57-60. [Google Scholar]
Zhang L.Y. (2002) The Study and Application of “2+3” Enhanced Oil Recovery, J. Inner Mongolin Petrochem. Ind. 27, 2, 103-106. [Google Scholar]
Zhao P.C. et al. (2004) Improve Injection Profile by Combining Plugging Agent Treatment and Acid Stimulation, Paper SPE 89394 presented at the SPE/DOE Symposium on Improved Oil Recovery, Tulsa, Oklahoma, 17-21 April 2004. [Google Scholar]
Wang L.M., Zhang G.P. (2003) Using tracer to Identify Channels and Remaining Oil Distribution, Fault-Block Oil Gas J. 10, 4, 24-26. [Google Scholar]
Liu J.W. et al. (2008) Application of Isotope Tracer Interwell Monitoring Technique in N1 of Shizigou Oilfield, J. Isotopes 21, 1, 54-57. [Google Scholar]
Wang D. et al. (2008) Application of Tracing Flow Measurement Technology in Polymer-injected Profile Test in Gudong Oilfield, Well Logging Technol. 32, 1, 87-89. [Google Scholar]
Wen M. et al. (2008) Application of Tracer Detection Method in the Well Shuang-1, Nat. Gas Ind. 28, 1, 110-112. [Google Scholar]
Dong J.D. et al. (2007) Application of Tracer Flow Survey Technology in Jidong Oilfield, Oil Drilling Prod. Technol. 29, supplement, 106-109. [Google Scholar]
Wu Z.D. et al. (2007) Application of Interwell Tracer Detection in Complex Small Fault Block Reservoirs, J. Oil Gas Technol. 29, 3, 237-239. [Google Scholar]
Yu R.X. et al. (2007) Tracer Technologies used in Oilfields, Ind. Water Treatment 27, 8, 12-15. [Google Scholar]
Chen Y.W. et al. (2007) Combination Interpretation Method for Well-group Tracer Production Curves, J. China Univ. Petrol. (Ed. Nat. Sci.) 31, 4, 74-77. [Google Scholar]
Shi L.H. et al. (2007) The Application of The Micro Material Inter-well Tracing Technology to Recognize High Capacity Channels in Oil Layers, Petrol. Geol. Oilfield Dev. Daqing 26, 4, 130-132. [Google Scholar]
Qi N. et al. (2005) Research on the Techniques of Profiles Control and Water Shutoff Agents I, Drilling Prod. Technol. 28, 01, 45-49. [Google Scholar]
Gao J. et al. (2006) Rheological Properties of High Hygroscopic Profile Modification Gel, J. East China Univ. Sci. Technol. (Nat. Sci. Ed.) 32, 9, 1038-1041. [Google Scholar]
Wang Y.F. et al. (2006) Experimental Study on Gel-based indepth Profile Control Agents for Gudao Oilfield, J. Xi’an Shiyou Univ. (Nat. Sci. Ed.) 21, 1, 46-50. [Google Scholar]
Zhang G.Y. et al. (2007) Research and Application of Chemical Water Plugging Technology in The Well Cb11c-2 in Chengdao Oilfield, Drilling Prod. Technol. 30, 5, 126-127. [Google Scholar]
Maroudas A. (1966) Particle Deposition in Granular Filter Media-2, Filtr. Separat. 3, 2, 115-121. [Google Scholar]
Li L. et al. (2000) Effect of Flowing Shear on Gelation of a Polymer Crosslinking System, Oilfield Chem. 17, 2, 48-51. [Google Scholar]
Chauveteau G., Tabary R., Renard M., Omari A. (2003) Method for preparing microgels of controlled size, Institute of France Petroleum, US Patent 6579909. [Google Scholar]
Cozic C., Rousseau D., Tabary R. (2008) Broadening the Application Range of Water Shutoff Conformance Control Microgels: An Investigation of their Chemical Robustness, Paper SPE 115974 presented at SPE Annual Technical Conference and Exhibition, Denver, Colorado, USA. [Google Scholar]
Frampton H., Morgan J.C., Cheung S.K., Munson L., Chang K.T., Williams D. (2004) Development of a Novel Waterflood Conformance Control System, Paper SPE 89391 presented at SPE/DOE Symposium on Improved Oil Recovery, Tulsa, Oklahoma. [Google Scholar]
Ohms D.S., McLeod J.D., Graff C.J., Frampton H., Morgan J., Cheung S.K., Yancey K.E., Chang K.-T. (2009) Incremental Oil Success from Waterflood Sweep Improvement in Alaska, Paper SPE 121761 presented at SPE International Symposium on Oilfield Chemistry, The Woodlands, Texas. [Google Scholar]
Spildo K., Skauge A., Aarra M.G., Tweheyo M.T. (2008) A New Polymer Application for North Sea Reservoirs, Paper SPE 113460 presented at the 2008 SPE Improved Oil Recovery Symposium held in Tulsa, Oklahoma, USA, 19-23 April 2008. [Google Scholar]
Lin M., Li M., Wang Z., Wu Z. (2009) A Study of Thermal Stability of Linked Polymer Solution, J. Disper. Sci. Technol. 30, 6, 753-756. [CrossRef] [Google Scholar]

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