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Petroleum Science and Technology Volume 26, 2008 - Issue 4
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Original Articles

Effect of Polymer Solution Viscoelasticity on Residual Oil

H. Xia Petroleum Engineering Department, Daqing Petroleum Institute, Daqing, China
,
D. Wang Petroleum Engineering Department, Daqing Petroleum Institute, Daqing, China
,
G. Wang Science and Technology Development Department, Daqing Oil Field Ltd. Co., Daqing, China
&
J. Wu Science and Technology Development Department, Daqing Oil Field Ltd. Co., Daqing, China
Pages 398-412 | Published online: 27 Feb 2008

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Xu Han, Lihui Wang, Huifen Xia, Peihui Han, Ruibo Cao & Lili Liu. (2022) Mechanism underlying initiation of migration of film-like residual oil. Journal of Dispersion Science and Technology 43:13, pages 1927-1947.
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Articles from other publishers (22)

Haider Ali Shakir, Rafal Firas Abdulhameed, Hassanein Abd Ali Hilal, Dheiaa Alfarge & Ahmed M. Aljarah. (2023) Factors impacting the performance of polymer-based EOR in oil reservoirs. Chemical Papers 77:9, pages 4859-4875.
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Bennet Nii Tackie-Otoo, Mohammed Abdalla Ayoub Mohammed, Daniel Asante Otchere & Shiferaw Regassa Jufar. (2023) A study of the oil recovery potential and mechanisms of an alternative Alkaline-Surfactant-Polymer formulation for carbonate reservoir. Geoenergy Science and Engineering 227, pages 211881.
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Abdelhalim I. A. Mohamed, Mahdi Khishvand & Mohammad Piri. (2023) Entrapment and mobilization dynamics during the flow of viscoelastic fluids in natural porous media: A micro-scale experimental investigation. Physics of Fluids 35:4.
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Manish Kumar, Jeffrey S. Guasto & Arezoo M. Ardekani. (2022) Transport of complex and active fluids in porous media. Journal of Rheology 66:2, pages 375-397.
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Chunming Xiong, Falin Wei, Song Zhang, Cheng Cai, Jing Lv, Liming Shao & Dianlin Wang. (2022) Experimental Investigation of a Mechanically Stable and Temperature/Salinity Tolerant Biopolymer toward Enhanced Oil Recovery Application in Harsh Condition Reservoirs. Energies 15:5, pages 1601.
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Souheyla Chami, Nicolas Joly, Patrizia Bocchetta, Patrick Martin & Djamel Aliouche. (2021) Polyacrylamide Grafted Xanthan: Microwave-Assisted Synthesis and Rheological Behavior for Polymer Flooding. Polymers 13:9, pages 1484.
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P. Druetta & F. Picchioni. (2020) Influence of physical and rheological properties of sweeping fluids on the residual oil saturation at the micro- and macroscale. Journal of Non-Newtonian Fluid Mechanics 286, pages 104444.
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Hao Ren, Xiang‐Hua Ding, Qiang Luo, Lian‐Yu Yang, Xiao‐Hua Yong, Yun Wei, Jian Peng & Yong Deng. (2020) β‐Cyclodextrin ‐functionalized copolymers based on multiple intermolecular forces for enhanced oil recovery . Polymer Engineering & Science 60:10, pages 2581-2592.
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Chiyu Xie, Ke Xu, Kishore Mohanty, Moran Wang & Matthew T. Balhoff. (2020) Nonwetting droplet oscillation and displacement by viscoelastic fluids. Physical Review Fluids 5:6.
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Jiulong Wang, Weiyao Zhu, Chengfang Shi, Jiqiang Wang & Yunfeng Liu. (2019) Assessment of polymer flooding effects on the recovery of heterogeneous thick reservoirs with dominant channel. Journal of Petroleum Exploration and Production Technology 10:4, pages 1533-1538.
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Madhar S. Azad & Japan J. Trivedi. (2019) Quantification of the Viscoelastic Effects During Polymer Flooding: A Critical Review. SPE Journal.
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Fabián Andrés Tapias- Hernández & Rosangela Barros Zanoni Lopes Moreno. (2019) Assessment of a surfactant- polymer formulation for conditions in a Colombian field. CT&F - Ciencia, Tecnología y Futuro 9:1, pages 47-63.
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Abdullah O. Almansour, Abdulrahman A. AlQuraishi, Saud N. AlHussinan & Hamdan Q. AlYami. (2017) Efficiency of enhanced oil recovery using polymer-augmented low salinity flooding. Journal of Petroleum Exploration and Production Technology 7:4, pages 1149-1158.
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Andrew Clarke, Andrew M. Howe, Jonathan Mitchell, John Staniland & Laurence A. Hawkes. (2016) How Viscoelastic-Polymer Flooding Enhances Displacement Efficiency. SPE Journal 21:03, pages 0675-0687.
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Bing Wei. (2015) β-Cyclodextrin associated polymeric systems: Rheology, flow behavior in porous media and enhanced heavy oil recovery performance. Carbohydrate Polymers 134, pages 398-405.
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Patrizio Raffa, Diego Armando Zakarias Wever, Francesco Picchioni & Antonius A. Broekhuis. (2015) Polymeric Surfactants: Synthesis, Properties, and Links to Applications. Chemical Reviews 115:16, pages 8504-8563.
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Bing Wei, Laura Romero-Zerón & Denis Rodrigue. (2015) Improved viscoelasticity of xanthan gum through self-association with surfactant: β-cyclodextrin inclusion complexes for applications in enhanced oil recovery. Polymer Engineering & Science 55:3, pages 523-532.
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Bing Wei, Laura Romero-Zerón & Denis Rodrigue. (2013) Oil displacement mechanisms of viscoelastic polymers in enhanced oil recovery (EOR): a review. Journal of Petroleum Exploration and Production Technology 4:2, pages 113-121.
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Diego A. Z. Wever, Lorenzo M. Polgar, Marc C. A. Stuart, Francesco Picchioni & Antonius A. Broekhuis. (2013) Polymer Molecular Architecture As a Tool for Controlling the Rheological Properties of Aqueous Polyacrylamide Solutions for Enhanced Oil Recovery. Industrial & Engineering Chemistry Research 52:47, pages 16993-17005.
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Diego A. Z. Wever, Francesco Picchioni & Antonius A. Broekhuis. (2013) Comblike Polyacrylamides as Flooding Agent in Enhanced Oil Recovery. Industrial & Engineering Chemistry Research 52:46, pages 16352-16363.
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Quansheng Chen, Yu Wang, Zhiyong Lu & Yujun Feng. (2012) Thermoviscosifying polymer used for enhanced oil recovery: rheological behaviors and core flooding test. Polymer Bulletin 70:2, pages 391-401.
Crossref
Zhen Zhang, Jiachun Li & Jifu Zhou. (2010) Microscopic Roles of “Viscoelasticity” in HPMA polymer flooding for EOR. Transport in Porous Media 86:1, pages 199-214.
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