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Petroleum Science and Technology Volume 33, 2015 - Issue 9
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Original Articles

Effect of Nanoclay on Heavy Oil Recovery During Polymer Flooding

G. CheraghianYoung Researchers and Elite Club, Omidieh Branch, Islamic Azad University, Omidieh, IranCorrespondence[email protected]
&
S. S. KhalilinezhadDepartment of Petroleum and Gas Engineering, Science and Research Branch, Islamic Azad University, Tehran, Iran
Pages 999-1007 | Published online: 23 Jun 2015

Citations (50)

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Jianbing Li, Wenxiang Wu, Liwei Niu, Mingxing Bai, Yue Zhang & Ying Jiang. (2021) Reservoir applicability and flooding effect of amphoteric ion crosslinked polymer solution. Journal of Dispersion Science and Technology 42:3, pages 352-362.
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Sina Mobaraki, Mahdi Zakavi, Omid Mahmoodi, Milad Omidvar Sorkhabadi, Seyyed Shahram Khalilinezhad & Reza Shiri Torkmani. (2020) An experimental study on the mechanisms of enhancing oil recovery by nanoparticles-assisted surfactant flood. Geosystem Engineering 23:6, pages 315-331.
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Hossein Ghahremani, Sina Mobaraki, Seyyed Shahram Khalilinezhad & Khosrow Jarrahian. (2018) An experimental study of the performance of low-molecular weight polymer for enhanced heavy oil recovery in a heterogeneous media. Geosystem Engineering 21:2, pages 95-102.
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Goshtasp Cheraghian. (2016) Effect of nano titanium dioxide on heavy oil recovery during polymer flooding. Petroleum Science and Technology 34:7, pages 633-641.
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Goshtasp Cheraghian. (2016) Effects of titanium dioxide nanoparticles on the efficiency of surfactant flooding of heavy oil in a glass micromodel. Petroleum Science and Technology 34:3, pages 260-267.
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Goshtasp Cheraghian. (2016) Application of nano-fumed silica in heavy oil recovery. Petroleum Science and Technology 34:1, pages 12-18.
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G. Cheraghian. (2015) Thermal Resistance and Application of Nanoclay on Polymer Flooding in Heavy Oil Recovery. Petroleum Science and Technology 33:17-18, pages 1580-1586.
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G. Cheraghian. (2015) An Experimental Study of Surfactant Polymer for Enhanced Heavy Oil Recovery Using a Glass Micromodel by Adding Nanoclay. Petroleum Science and Technology 33:13-14, pages 1410-1417.
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Articles from other publishers (42)

Mohammad Tabaeh Hayavi, Azim Kalantariasl & M. Reza Malayeri. (2023) Application of polymeric relative permeability modifiers for water control purposes: Opportunities and challenges. Geoenergy Science and Engineering 231, pages 212330.
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Khalaf G. Salem, Mahmoud A. Tantawy, Ahmed A. Gawish, Sayed Gomaa & A.N. El-hoshoudy. (2023) Nanoparticles assisted polymer flooding: Comprehensive assessment and empirical correlation. Geoenergy Science and Engineering 226, pages 211753.
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Wei Zhou, Cuiping Xin, Yiguo Chen, Richie Dieuveil Mouhouadi & Shengnan Chen. (2023) Nanoparticles for Enhancing Heavy Oil Recovery: Recent Progress, Challenges, and Future Perspectives. Energy & Fuels 37:12, pages 8057-8078.
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Mostafa Iravani, Zahra Khalilnezhad & Ali Khalilnezhad. (2023) A review on application of nanoparticles for EOR purposes: history and current challenges. Journal of Petroleum Exploration and Production Technology 13:4, pages 959-994.
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Jain Mariyate & Achinta Bera. (2023) Paradigm shift towards the sustainability in upstream oil industry for enhanced recovery - A state-of-art review. Journal of Cleaner Production 386, pages 135784.
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Xiaopu Wang, Lingling Ren, Tao Long, Chunxiang Geng & Xinyi Tian. (2022) Migration and remediation of organic liquid pollutants in porous soils and sedimentary rocks: a review. Environmental Chemistry Letters 21:1, pages 479-496.
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Akram Al-Asadi, Eva Rodil & Ana Soto. (2022) Nanoparticles in Chemical EOR: A Review on Flooding Tests. Nanomaterials 12:23, pages 4142.
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Rasan Sarbast, Namam Salih & Alain Préat. (2022) A Critical Overview of ASP and Future Perspectives of NASP in EOR of Hydrocarbon Reservoirs: Potential Application, Prospects, Challenges and Governing Mechanisms. Nanomaterials 12:22, pages 4007.
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Zeta Nur Muhammad Yahya, Nadya Puteri Puspaseruni, Rani Kurnia, Deana Wahyuningrum, Irma Mulyani, Tito Wijayanto, Masanori Kurihara, Sigit Sulistio Waskito, Billal Maydika Aslam & Taufan Marhaendrajana. (2022) The effect of aluminosilicate in anionic–nonionic surfactant mixture on wetness and interfacial tension in its application for enhanced oil recovery. Energy Reports 8, pages 1013-1025.
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Sedigheh Badiri, Omid Mahmoodi, Mahdi Zakavi & Armita Anousha. (2021) Oil Recovery Improvement in Heterogeneous Layered Reservoirs Using Polymer Nanohybrids: A Numerical Approach. Arabian Journal for Science and Engineering 47:9, pages 11481-11503.
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Tatiana Montoya, Archana Jaiswal & Nashaat N. Nassar. (2021) Investigation of the interaction between nanoparticles, asphaltenes, and silica surfaces by real‐time quartz crystal microbalance with dissipation. The Canadian Journal of Chemical Engineering 99:11, pages 2452-2466.
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Mahdi Shayan Nasr, Ehsan Esmaeilnezhad & Hyoung Jin Choi. (2021) Effect of carbon-based and metal-based nanoparticles on enhanced oil recovery: A review. Journal of Molecular Liquids 338, pages 116903.
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Ketao Yan, Jinfu Chen, Liu He, Jianhua He & Weijie Dai. (2021) Influence of suspended microcrystalline polymer system on characteristics of produced water from High Ca and Mg oilfields and corresponding oil removal methods. Journal of Water Process Engineering 42, pages 102134.
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Seyed Shahram Khalilinezhad, Amir H. Mohammadi, Abdolnabi Hashemi & Mojtaba Ghasemi. (2021) Rheological characteristics and flow dynamics of polymer nanohybrids in enhancing oil recovery from low permeable carbonate oil reservoirs. Journal of Petroleum Science and Engineering 197, pages 107959.
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G. Goshtasp Cheraghian & Masoud Afrand. 2021. Emerging Nanotechnologies for Renewable Energy. Emerging Nanotechnologies for Renewable Energy 135 148 .
Farad Sagala, Afif Hethnawi, George William Kajjumba & Nashaat N. Nassar. 2021. Nanoparticles: An Emerging Technology for Oil Production and Processing Applications. Nanoparticles: An Emerging Technology for Oil Production and Processing Applications 41 95 .
Henderson Ivan Quintero Perez, Maria Carolina Ruiz Cañas, Ruben Hernan Castro Garcia & Arnold Rafael Romero Bohorquez. (2020) Use of nanoparticles to improve thermochemical resistance of synthetic polymer to enhanced oil recovery applications: a review. CT&F - Ciencia, Tecnología y Futuro 10:2, pages 85-97.
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Mohammad Hemmat Esfe, Saeed Esfandeh & Ehsan Hosseinizadeh. (2020) Nanofluid flooding in a randomized heterogeneous porous media and investigating the effect of capillary pressure and diffusion on oil recovery factor. Journal of Molecular Liquids 320, pages 113646.
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Jinesh Machale, Subrata Kumar Majumder, Pallab Ghosh & Tushar Kanti Sen. (2020) Role of chemical additives and their rheological properties in enhanced oil recovery. Reviews in Chemical Engineering 36:7, pages 789-830.
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Eugene N. Ngouangna, Muhammad A. Manan, Jeffrey O. Oseh, M.N.A.M. Norddin, Augustine Agi & Afeez O. Gbadamosi. (2020) Influence of (3–Aminopropyl) triethoxysilane on silica nanoparticle for enhanced oil recovery. Journal of Molecular Liquids 315, pages 113740.
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Goshtasp Cheraghian, Sara Rostami & Masoud Afrand. (2020) Nanotechnology in Enhanced Oil Recovery. Processes 8:9, pages 1073.
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Edgar Rueda, Salem Akarri, Ole Torsæter & Rosangela B.Z.L. Moreno. (2020) Experimental Investigation of the Effect of Adding Nanoparticles to Polymer Flooding in Water-Wet Micromodels. Nanomaterials 10:8, pages 1489.
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Seyed Shahram Khalilinezhad, Abdolnabi Hashemi, Sina Mobaraki, Mahdi Zakavi & Khosro Jarrahian. (2019) Experimental Analysis and Numerical Modeling of Polymer Flooding in Heavy Oil Recovery Enhancement: A Pore-Level Investigation. Arabian Journal for Science and Engineering 44:12, pages 10447-10465.
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Afeez O. Gbadamosi, Radzuan Junin, Muhammad A. Manan, Nurudeen Yekeen & Agi Augustine. (2019) Hybrid suspension of polymer and nanoparticles for enhanced oil recovery. Polymer Bulletin 76:12, pages 6193-6230.
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Afeez O. Gbadamosi, Radzuan Junin, Muhammad A. Manan, Augustine Agi, Jeffrey O. Oseh & Jamilu Usman. (2019) Synergistic application of aluminium oxide nanoparticles and oilfield polyacrylamide for enhanced oil recovery. Journal of Petroleum Science and Engineering 182, pages 106345.
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Marwan Y. Rezk & Nageh K. Allam. (2019) Impact of Nanotechnology on Enhanced Oil Recovery: A Mini-Review. Industrial & Engineering Chemistry Research 58:36, pages 16287-16295.
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Haifeng Ding, Na Zhang, Yandong Zhang, Mingzhen Wei & Baojun Bai. (2019) Experimental Data Analysis of Nanoparticles for Enhanced Oil Recovery. Industrial & Engineering Chemistry Research 58:27, pages 12438-12450.
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Laura M. Corredor, Maen M. Husein & Brij B. Maini. (2019) Impact of PAM-Grafted Nanoparticles on the Performance of Hydrolyzed Polyacrylamide Solutions for Heavy Oil Recovery at Different Salinities. Industrial & Engineering Chemistry Research 58:23, pages 9888-9899.
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Pablo Druetta, Patrizio Raffa & Francesco Picchioni. (2018) Plenty of Room at the Bottom: Nanotechnology as Solution to an Old Issue in Enhanced Oil Recovery. Applied Sciences 8:12, pages 2596.
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Sandeep Rellegadla, Himanshu K. Bairwa, Mankamna R. Kumari, Ganshyam Prajapat, Surendra Nimesh, Nidhi Pareek, Shikha Jain & Akhil Agrawal. (2018) An Effective Approach for Enhanced Oil Recovery Using Nickel Nanoparticles Assisted Polymer Flooding. Energy & Fuels 32:11, pages 11212-11221.
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Afeez O. Gbadamosi, Radzuan Junin, Muhammad A. Manan, Nurudeen Yekeen, Augustine Agi & Jeffrey O. Oseh. (2018) Recent advances and prospects in polymeric nanofluids application for enhanced oil recovery. Journal of Industrial and Engineering Chemistry 66, pages 1-19.
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Augustine Agi, Radzuan Junin & Afeez Gbadamosi. (2018) Mechanism governing nanoparticle flow behaviour in porous media: insight for enhanced oil recovery applications. International Nano Letters 8:2, pages 49-77.
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Madhan Agista, Kun Guo & Zhixin Yu. (2018) A State-of-the-Art Review of Nanoparticles Application in Petroleum with a Focus on Enhanced Oil Recovery. Applied Sciences 8:6, pages 871.
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Goshtasp Cheraghian, Sajad KianiNashaat N. Nassar, Shirin Alexander & Andrew R. Barron. (2017) Silica Nanoparticle Enhancement in the Efficiency of Surfactant Flooding of Heavy Oil in a Glass Micromodel. Industrial & Engineering Chemistry Research 56:30, pages 8528-8534.
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Yining Wu, Wenxia Chen, Mei Hu, Caili Dai, Mingwei Zhao & Long He. (2017) Application of Dispersed Particle Gel to Inhibit Surfactant Adsorption on Sand. Journal of Surfactants and Detergents 20:4, pages 863-871.
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Xiaofei Sun, Yanyu Zhang, Guangpeng Chen & Zhiyong Gai. (2017) Application of Nanoparticles in Enhanced Oil Recovery: A Critical Review of Recent Progress. Energies 10:3, pages 345.
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Rong Li, Peixue Jiang, Cheng Gao, Feng Huang, Ruina Xu & Xue Chen. (2016) Experimental Investigation of Silica-Based Nanofluid Enhanced Oil Recovery: The Effect of Wettability Alteration. Energy & Fuels 31:1, pages 188-197.
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Goshtasp Cheraghian. (2017) Synthesis and properties of polyacrylamide by nanoparticles, effect nanoclay on stability polyacrylamide solution. Micro & Nano Letters 12:1, pages 40-44.
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Seyyed Shahram Khalili Nezhad & Goshtasp Cheraghian. (2015) Mechanisms behind injecting the combination of nano-clay particles and polymer solution for enhanced oil recovery. Applied Nanoscience 6:6, pages 923-931.
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Seyyed Shahram Khalilinezhad, Goshtasp Cheraghian, Mohammad Saber Karambeigi, Hamid Tabatabaee & Emad Roayaei. (2016) Characterizing the Role of Clay and Silica Nanoparticles in Enhanced Heavy Oil Recovery During Polymer Flooding. Arabian Journal for Science and Engineering 41:7, pages 2731-2750.
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Goshtasp Cheraghian & Luky Hendraningrat. (2016) A review on applications of nanotechnology in the enhanced oil recovery part A: effects of nanoparticles on interfacial tension. International Nano Letters 6:2, pages 129-138.
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Zeta Nur Muhammad Yahya, Nadya Puteri Puspaseruni, Rani Kurnia, Deana Wahyuningrum, Irma Mulyani, Tito Wijayanto, Masanori Kurihara, Sigit Sulistio Waskito, Billal Maydika Aslam & Taufan Marhaendrajana. (2021) The Effect of Aluminosilicate in Anionic-Nonionic Surfactant Mixture on Wetness and Interfacial Tension in its Application for Enhanced Oil Recovery. SSRN Electronic Journal.
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