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Heat Transfer Engineering Volume 42, 2021 - Issue 12
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Articles

Systematic Experimental Study of the Viscosity of Nanofluids

Andrey V. MinakovDepartment of Thermal Physics, Siberian Federal University, Krasnoyarsk, Russia; ;Kutateladze Institute of Thermophysics SB RAS, Novosibirsk, Russia; Correspondence[email protected]
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Valery Ya. RudyakDepartment of Thermal Physics, Siberian Federal University, Krasnoyarsk, Russia; ;Department of Theoretical Mechanics, Novosibirsk State University of Architecture and Civil Engineering, Novosibirsk, RussiaView further author information
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Maxim I. PryazhnikovDepartment of Thermal Physics, Siberian Federal University, Krasnoyarsk, Russia; ;Kutateladze Institute of Thermophysics SB RAS, Novosibirsk, Russia; View further author information
Pages 1024-1040 | Published online: 25 May 2020

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Harsh Gupta, Santosh Kumar Rai, Piyush Kuchhal & Gagan Anand. (2021) Characterization and experimental investigation of rheological behavior of oxide nanolubricants. Particulate Science and Technology 39:6, pages 651-656.
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Harsh Gupta, Santosh Kumar Rai, Nippani Satya Krishna & Gagan Anand. (2021) The effect of copper oxide nanoparticle additives on the rheological and tribological properties of engine oil. Journal of Dispersion Science and Technology 42:4, pages 622-632.
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Articles from other publishers (28)

Xinyue Xu, Keyu Weng, Xitao Lu, Yuanqiang Zhang, Shuyan Zhu & Deqiu Zou. (2024) Functional thermal fluids and their applications in battery thermal management: A comprehensive review. Journal of Energy Chemistry 94, pages 78-101.
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V.Ya. Rudyak, A.A. Belkin & T.A. Rafalskaya. (2024) Molecular dynamics study of the rheology of benzene-based nanofluids with metal particles. Journal of Molecular Liquids 403, pages 124805.
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S. Pavan Kumar, U. Sandhya Shenoy & D. Krishna Bhat. (2024) A direct approach towards synthesis of copper nanofluid by one step solution phase method. Journal of Crystal Growth 630, pages 127591.
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D.V. Guzei, S.V. Ivanova, A.V. Minakov & M.I. Pryazhnikov. (2023) Comprehensive numerical study of sequential injection of SiO2-nanofluids for enhanced oil recovery. Journal of Molecular Liquids 391, pages 123307.
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R Kiruba & A Kingson Solomon Jeevaraj. (2023) Rheological characteristics and thermal studies of EG based Cu:ZnO hybrid nanofluids for enhanced heat transfer efficiency. Chemical Physics Impact 7, pages 100278.
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Shuguo Hu, Changhe Li, Zongming Zhou, Bo Liu, Yanbin Zhang, Min Yang, Benkai Li, Teng Gao, Mingzheng Liu, Xin Cui, Xiaoming Wang, Wenhao Xu, Y. S. Dambatta, Runze Li & Shubham Sharma. (2024) Nanoparticle-enhanced coolants in machining: mechanism, application, and prospects. Frontiers of Mechanical Engineering 18:4.
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Dmitriy Guzei, Angelica Skorobogatova, Sofia Ivanova & Andrey Minakov. (2023) A Computational Study of Polymer Solutions Flow Regimes during Oil Recovery from a Fractured Model. Applied Sciences 13:20, pages 11508.
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Anxue Chu, Changhe Li, Zongming Zhou, Bo Liu, Yanbin Zhang, Min Yang, Teng Gao, Mingzheng Liu, Naiqing Zhang, Yusuf Suleiman Dambatta & Shubham Sharma. (2023) Nanofluids Minimal Quantity Lubrication Machining: From Mechanisms to Application. Lubricants 11:10, pages 422.
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Davood Toghraie, Seyed Naser Hosseini Tamrabad, Soheyl Alidoust & Hossein Hatami. (2023) Obtaining the optimal lubrication conditions by investigating the viscosity of MWCNT (25%)-TiO2(75%)/ oil SAE40 hybrid nanofluid by response surface methodology. Tribology International 186, pages 108585.
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Mohammad Hemmat Esfe, S. Ali Eftekhari, As'ad Alizadeh, Nafiseh Emami & Davood Toghraie. (2023) Investigation of best artificial neural network topology to model the dynamic viscosity of MWCNT-ZnO/SAE 5W30 nano-lubricant. Materials Today Communications 35, pages 106074.
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Maxim Pryazhnikov, Andrey Pryazhnikov, Angelica Skorobogatova, Andrey Minakov & Yulia Ivleva. (2023) Microfluidic Study of Enhanced Oil Recovery during Flooding with Polyacrylamide Polymer Solutions. Micromachines 14:6, pages 1137.
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V. Vicki Wanatasanappan, Praveen Kumar Kanti, Prabhakar Sharma, N. Husna & M.Z. Abdullah. (2023) Viscosity and rheological behavior of Al2O3-Fe2O3/water-EG based hybrid nanofluid: A new correlation based on mixture ratio. Journal of Molecular Liquids 375, pages 121365.
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Xiaoyu Wang, Huanchen Liu, Qilong Zhao, Xiaobo Wang & Wenjing Lou. (2023) Viscosity Variations and Tribological Performances of Oleylamine-Modified Fe3O4 Nanoparticles as Mineral Oil Additives. Lubricants 11:3, pages 149.
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Mohammad Hemmat Esfe, S. Ali Eftekhari, As'ad Alizadeh, Saman Aminian, Maboud Hekmatifar & Davood Toghraie. (2023) A well-trained artificial neural network for predicting the optimum conditions of MWCNT–ZnO (10:90)/ SAE 40 nano-lubricant at different shear rates, temperatures, and concentration of nanoparticles. Arabian Journal of Chemistry 16:2, pages 104508.
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Hongyan Huang, Chunquan Li, Siyuan Huang, Yuling Shang & Qiao Wang. (2023) Study of a novel ternary second-order viscosity model on Al2O3-water nanofluid. Thermal Science 27:5 Part B, pages 4223-4234.
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Shri Ram, Surender Kumar Yadav & Arvind Kumar. (2023) Recent advancement of nanofluids in solar concentrating collectors: A brief review. Materials Today: Proceedings 72, pages 2032-2038.
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Mohammad Hemmat Esfe, Mohammad Hassan Kamyab, Erfan Mohammadnejad Ardeshiri & Davood Toghraie. (2023) Study of MWCNT (40 %) – CuO (60 %)/10W40 hybrid nanofluid for improving laboratory oil performance by laboratory method and statistical response surface methodology. Alexandria Engineering Journal 63, pages 115-125.
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Andrey V. Minakov, Maxim I. Pryazhnikov, Mikhail M. Simunin, Sergey S. Dobrosmyslov, Airaana A. Kuular, Maxim S. Molokeev, Mikhail N. Volochaev, Stanislav V. Khartov & Anton S. Voronin. (2022) Rheological properties of colloidal suspensions of alumina nanofibers. Journal of Molecular Liquids 367, pages 120385.
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Qing Feng, Jingchao Zhou, Shengsheng Li, Xianchao Chen, Yanni Sun, Xiaorong Zhang, Ping Gao, Fan Zhang & Yuehui She. (2022) Research on Characterization Technology and Field Test of Biological Nano-oil Displacement in Offshore Medium- and Low-Permeability Reservoirs. ACS Omega 7:44, pages 40132-40144.
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Joshua Beck, Michael Palmer, Kallie Inman, Jake Wohld, Marcus Cummings, Ryan Fulmer, Branden Scherer & Saeid Vafaei. (2022) Heat Transfer Enhancement in the Microscale: Optimization of Fluid Flow. Nanomaterials 12:20, pages 3628.
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V. Ya. Rudyak, A. V. Minakov, M. I. Pryazhnikov & D. V. Guzey. (2023) Measurement of the Thermal Conductivity and Heat Transfer Coefficient of Nanofluids with Single-Walled Nanotubes. High Temperature 60:5, pages 631-638.
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Bhavin Mehta, Dattatraya Subhedar, Hitesh Panchal & Zafar Said. (2022) Synthesis, stability, thermophysical properties and heat transfer applications of nanofluid – A review. Journal of Molecular Liquids 364, pages 120034.
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Mohammad Hemmat Esfe, Mehdi Hajian, Reza Esmaily, S. Ali Eftekhari, Maboud Hekmatifar & Davood Toghraie. (2022) Designing the best ANN topology for predicting the dynamic viscosity and rheological behavior of MWCNT-CuO (30:70)/ SAE 50 nano-lubricant. Colloids and Surfaces A: Physicochemical and Engineering Aspects 651, pages 129691.
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Zhaoyang Lou, Chen Cheng, Yingqi Cui & Hao Tian. (2022) Interfacial interaction–driven rheological properties of quartz nanofluids from molecular dynamics simulations and density functional theory calculations. Journal of Molecular Modeling 28:7.
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A. V. Minakov, M. I. Pryazhnikov, B. B. Damdinov & I. V. Nemtsev. (2022) Acoustic Spectroscopy Study of the Bulk Viscosity of Nanosuspensions. Acoustical Physics 68:2, pages 155-161.
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A I Pryazhnikov, A V Minakov, M I Pryazhnikov, V A Zhigarev & I V Nemtsev. (2022) Displacement of oil by SiO 2 -nanofluid from a microporous medium: microfluidic experiments . Journal of Physics: Conference Series 2150:1, pages 012019.
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Roozbeh Moshfeghi & Davood Toghraie. (2022) An analytical and statistical review of selected researches in the field of estimation of rheological behavior of nanofluids. Powder Technology 398, pages 117076.
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Mohammad Hemmat Esfe, Milad Goodarzi & Saeed Esfandeh. (2021) Statistical and Intelligent Analysis of Viscosity behavior of MgO-MWCNT (25–75%)/10W40 Hybrid Nanolubricant Using Artificial Neural Network Modeling and Response Surface Methodology. Arabian Journal for Science and Engineering 47:1, pages 1117-1127.
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