Advances in Nanoparticles

Advances in Nanoparticles

ISSN Print: 2169-0510
ISSN Online: 2169-0529
www.scirp.org/journal/anp
E-mail: anp@scirp.org
"Viscosity of Nanofluids. Why It Is Not Described by the Classical Theories"
written by Valery Ya. Rudyak,
published by Advances in Nanoparticles, Vol.2 No.3, 2013
has been cited by the following article(s):
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[1] Experimental investigation on thermo-physical properties and subcooled flow boiling performance of Al2O3/water nanofluids in a horizontal tube
2021
[2] Darcy-Forchheimer porous medium effect on rotating hybrid nanofluid on a linear shrinking/stretching sheet
2021
[3] Stability analysis of multiple solutions in case of a stretched nanofluid flow obeying Corcione's correlation: An extended Darcy model
2021
[4] Effect of charge on aerosol microphysics of particles emitted from a hot wire generator: Theory and Experiments
2021
[5] Numerical and experimental evaluation of nanofluids based photovoltaic/thermal systems in Oman: Using silicone-carbide nanoparticles with water-ethylene …
2021
[6] Modeling and Prediction of the Dynamic Viscosity of Nanofluids by a Homogenization Method
2021
[7] The Semi-empirical Approach for Newtonian Nanofluids Viscosity Predicting
2020
[8] Использование нанофлюидов на основе углеродных наночастиц для вытеснения нефти из модели пористой среды
2020
[9] Impact on mechanical robustness of water droplet due to hydrophilic nanoparticles
2020
[10] Thermocapillary waves formation at the interface of hydrocarbons and graphene-like nanofluids
2020
[11] The Use of Nanoparticles to Displace Oil from a Porous Medium
2020
[12] Molecular dynamics simulation of water-based nanofluids viscosity
2020
[13] Диффузия перегретых и переохлажденных частиц как механизм теплопроводности в наножидкостях
2020
[14] Rheology of ionanofluids–A review
2020
[15] In situ observation of nanolite growth in volcanic melt: A driving force for explosive eruptions
2020
[16] Interaction of Heavy Crude Oil and Nanoparticles for Heavy Oil Upgrading
2020
[17] Influence of Oxidation Degree of Graphene Oxide on the Shear Rheology of Poly (Ethylene Glycol) Suspensions
2020
[18] Non‐Newtonian Thermosensitive Nanofluid Based on Carbon Dots Functionalized with Ionic Liquids
2020
[19] Enhancing Thermo-Economic Performance of TiO 2-Water Nanofluids: An Experimental Investigation
2020
[20] Enhancing Thermophysical Characteristics and Heat Transfer Potential of TiO 2/Water Nanofluid
2020
[21] Thermal and Hydraulic Performance of CuO/Water Nanofluids: A Review
2020
[22] Diffusion of Overheated and Overcooled Particles as a Mechanism of Thermal Conductivity in Nanofluids
2020
[23] Low Temperature Viscosity of Nanofluids with Water: Ethylene Glycol Base Fluid
2019
[24] Теоретическое исследование перебросовых колебаний наножидкости в связанных каналах при учете зависимости вязкости среды от концентрации частиц
2019
[25] Dynamic Viscosity of Graphene-and Ferrous Oxide-Based Nanofluids: Modeling and Experiment
2019
[26] On the Effect of Nanoparticles on Fluid Structure
2019
[27] On efficiency of convective heat transfer of nanofluids in laminar flow regime
2019
[28] An experimental study on hydraulic and thermal performances of hybrid nanofluids in mini-channel
2019
[29] Chemical Enhanced Oil Recovery: Advances in Polymer Flooding and Nanotechnology
2019
[30] Optimum volume fraction of nanoparticles for enhancing oil recovery by nanosilica/supercritical CO2 flooding in porous medium
2019
[31] Branched polymers and nanoparticles flooding as separate processes for enhanced oil recovery
2019
[32] A theoretical study of flop-over oscillations in connected channels for nanofluids with concentration dependent viscosity
2019
[33] Particle formation from vapors emitted from glowing wires: theory and experiments
2019
[34] Thermo-economic performance analysis of Al2O3-water nanofluids—An experimental investigation
2019
[35] Polymer and nanoparticles flooding as a new method for Enhanced Oil Recovery
2019
[36] Experimental investigation on stability and thermo-physical properties of Al2O3–SiO2/PAG nanolubricants with different nanoparticle ratios
2019
[37] A Numerical Study of 2-D Convective Heat Transfer of Nanofluid (Al2O3/H2O) in a Lid Driven Cavity with Square Cylinder at the Centre
2019
[38] Теоретическое исследование перебросовых колебаний наножидкости в связанных каналах при учете зависимости вязкости среды от концентрации …
2019
[39] ISI BORULU GÜNEŞ KOLLEKTÖRLERİNDE NANO ÇÖZELTİ İLE
2019
[40] Thermophysical characteristics of nanofluids and transport process mechanisms
2019
[41] 5. Nanotechnology in enhanced oil recovery
2019
[42] Chemical Enhanced Oil Recovery
2019
[43] О влиянии наночастиц на структуру жидкости
2019
[44] Методы интенсификации процессов теплоотдачи жидких теплоносителей (наножидкости)
2019
[45] Thermo-physical properties of metal oxides composite Nanolubricants/NNM Zawawi...[et al.]
2018
[46] The performance of evacuated tube solar collector (ETSC) using ceo/water nanofluid/Seow Khai Tze
2018
[47] Research on Thermophysical Properties of Nanoliquids Based on SiO 2 Nanoparticles for Use as a Heat-Transfer Medium in Solar-Thermal Converters
2018
[48] Numerical simulation of chemical EOR processes
2018
[49] ИНТЕНСИФИКАЦИЯ ПРОЦЕССОВ ТЕПЛООБМЕНА НАНО ЖИДКИХ ТЕПЛОНОСИТЕЛЕЙ
2018
[50] Thermo-physical properties of metal oxides composite nano lubricants
2018
[51] Thermophysical and tribological properties of dispersions based on graphene and a trimethylolpropane trioleate oil
Journal of Molecular Liquids, 2018
[52] DEPENDENCY OF NANOFLUID RHEOLOGY ON PARTICLE SIZE AND CONCENTRATION OF VARIOUS METAL OXIDE NANOPARTICLES
2018
[53] About rheology of nanofluids
AIP Conference Proceedings, 2018
[54] Theoretical study of nanofluids behavior at critical Rayleigh numbers
Journal of Thermal Analysis and Calorimetry, 2018
[55] ВЛИЯНИЕ АГЛОМЕРАЦИИ НА ВЯЗКОСТЬ НАНОЖИДКОСТЕЙ
2018
[56] Plenty of Room at the Bottom: Nanotechnology as Solution to an Old Issue in Enhanced Oil Recovery
2018
[57] Mathematical modelling of nanofluid thermophysical properties using compulas
2018
[58] Особенности вязкости наножидкостей. экспериментальное изучение
2018
[59] Scrutinization of thermal stratification, nonlinear thermal radiation and quartic autocatalytic chemical reaction effects on the flow of three-dimensional Eyring-Powell …
Multidiscipline Modeling in Materials and Structures, 2018
[60] Research on Thermophysical Properties of Nanoliquids Based on SiO2 Nanoparticles for Use as a Heat-Transfer Medium in Solar-Thermal Converters
Applied Solar Energy, 2018
[61] Experimental investigation on thermo-physical properties of metal oxide composite nanolubricants
International Journal of Refrigeration, 2018
[62] RHEOLOGICAL BEHAVIOR OF WATER AND ETHYLENE GLYCOL BASED NANOFLUIDS CONTAINING OXIDE NANOPARTICLES
Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2018
[63] Influence of Agglomeration on the Viscosity of Nanofluids
Journal of Engineering Physics and Thermophysics, 2018
[64] Effects of nanoparticles and temperature on heavy oil viscosity
Journal of Petroleum Science and Engineering, 2018
[65] Particle size effect on thermophysical properties of nanofluid and nanofluid based phase change materials: A review
Journal of Molecular Liquids, 2018
[66] Thermo-Physical Properties Of Metal Oxides Composite Nanolubricants
2018
[67] Thermophysical properties of nanofluids
The European Physical Journal E, 2018
[68] A thermodynamic model of nanofluid viscosity based on a generalized Maxwell-type constitutive equation
Journal of Non-Newtonian Fluid Mechanics, 2018
[69] Methods of Modeling of Microflows and Nanoflows
Micro- and Nanoflows, 2018
[70] Experimental and Numerical Study on Heat Transfer Enhancements of Concentric Tube Heat Exchanger Using Water Based Nanofluids
2018 5th International Conference on Renewable Energy: Generation and Applications (ICREGA), 2018
[71] Gyrotactic microorganisms and thermoelectric effects on the dynamics of 29 nm CuO-water nanofluid over an upper horizontal surface of paraboloid of revolution
Multidiscipline Modeling in Materials and Structures, 2017
[72] Rheological Characteristics of Nanofluids for Advance Heat Transfer
Advances in New Heat Transfer Fluids, 2017
[73] Rheological Properties of Silica Nanoparticles in Brine and Brine-Surfactant Systems
Journal of Nanofluids, 2017
[74] Thermo-physical properties of Al2O3-SiO2/PAG composite nanolubricant for refrigeration system
International Journal of Refrigeration, 2017
[75] The current state of the study of transport processes in nanofluids
2017
[76] Effect of nanoparticles on the modifications of drilling fluids properties: A review of recent advances
Journal of Petroleum Science and Engineering, 2017
[77] Heat transfer enhancement using surfactant based alumina nanofluid jet from a hot steel plate
Experimental Thermal and Fluid Science, 2017
[78] Simulation of the thermal conductivity of a nanofluid with small particles by molecular dynamics methods
Technical Physics, 2017
[79] МОДЕЛЬ ПРИСОЕДИНЕННОГО СЛОЯ ДЛЯ ОПИСАНИЯ ВЯЗКОСТИ НАНОЖИДКОСТИ
2017
[80] Synthesis and characterization of Zn-Al layered double hydroxide nanofluid and its application as a coolant in metal quenching
Applied Clay Science, 2017
[81] Effects of Metallic Nanoparticles on Interfacial Intermetallic Compounds in Tin-Based Solders for Microelectronic Packaging
Journal of Electronic Materials, 2017
[82] Nanoparticles influence on wetting behaviour of fractured limestone formation
Journal of Petroleum Science and Engineering, 2017
[83] Analysis of boundary layer formed on an upper horizontal surface of a paraboloid of revolution within nanofluid flow in the presence of thermophoresis and Brownian motion of 29 nm CuO
International Journal of Mechanical Sciences, 2017
[84] A Comparison of Theoretical and Empirical Viscosity Models for a Nanofluid in a Non-Isothermal Channel Flow
2017
[85] Современное состояние изучения процессов переноса в наножидкостях
2017
[86] Nanofluids as Novel Alternative Smart Fluids for Reservoir Wettability Alteration
Novel Nanomaterials-Synthesis and Applications, 2017
[87] Refrigerants for Vapor Compression Refrigeration Systems: A Review on Natural and Artificial Heat Transfer Fluids
2017
[88] Моделирование коэффициента теплопроводности наножидкости с малыми частицами методом молекулярной динамики
2017
[89] Advances in new heat transfer fluids: From numerical to experimental techniques
2017
[90] МОДЕЛИРОВАНИЕ ПРОЦЕССОВ ПЕРЕНОСА В НАНОЖИДКОСТЯХ МЕТОДОМ МОЛЕКУЛЯРНОЙ ДИНАМИКИ
2016
[91] Petroleum Science and Engineering
2016
[92] NANOAKIŞKANLARIN ISIL İLETKENLİK VE VİSKOZİTESİNİN DENEYSEL İNCELENMESİ: TANECİK BOYUTU ETKİSİ
2016
[93] ФЕНОМЕНОЛОГИЧЕСКАЯ ФОРМУЛА ДЛЯ КОЭФФИЦИЕНТА ТЕПЛОПРОВОДНОСТИ НАНОЖИДКОСТЕЙ НА ОСНОВЕ ВОДЫ
2016
[94] Современные проблемы микро-и нанофлюидики
2016
[95] Fundamentals of Nanoscience (and Nanotechnology)
2016
[96] Effects of nanoparticle aggregation, particle size and temperature of nanofluids using molecular dynamics simulation/Lee Soon Li
2016
[97] The investigation of boiling crisis of nanofluids
International Symposium and School of Young Scientists “Interfacial Phenomena and Heat Transfer” (IPHT 2016), 2016
[98] ИССЛЕДОВАНИЕ ВЛИЯНИЯ ПОВЕРХНОСТНО-АКТИВНЫХ ВЕЩЕСТВ НА КОЭФФИЦИЕНТ ВЯЗКОСТИ НАНОЖИДКОСТЕЙ
2016
[99] Formulation and in vitro evaluation of polymeric enteric nanoparticles as dermal carriers with pH-dependent targeting potential
European Journal of Pharmaceutical Sciences, 2016
[100] High-pressure rheology of alumina-silicone oil nanofluids
Powder Technology, 2016
[101] A review of thermophysical properties of water based composite nanofluids
Renewable and Sustainable Energy Reviews, 2016
[102] Physics and mechanics of heat exchange processes in nanofluid flows
Physical Mesomechanics, 2016
[103] Phenomenological formula for thermal conductivity coefficient of water-based nanofluids
Colloid Journal, 2016
[104] Effects of temperature and solid volume fraction on viscosity of SiO 2-MWCNTs/SAE40 hybrid nanofluid as a coolant and lubricant in heat engines
Applied Thermal Engineering, 2016
[105] Prediction of graphite nanofluids' dynamic viscosity by means of artificial neural networks
International Communications in Heat and Mass Transfer, 2016
[106] 47nm alumina–water nanofluid flow within boundary layer formed on upper horizontal surface of paraboloid of revolution in the presence of quartic autocatalysis chemical reaction
Alexandria Engineering Journal, 2016
[107] On the Assessment of Viscosity Variability by Nanofluid Engineering: A Review
Journal of Nanofluids, 2016
[108] Investigation of heat transfer of nanofluids in turbulent flow in a cylindrical channel
Fluid Dynamics, 2016
[109] Heat Transfer Performance of Functionalized Graphene Nanoplatelet Aqueous Nanofluids
Materials, 2016
[110] Potential of enhancing a natural convection loop with a thermomagnetically pumped ferrofluid
Journal of Magnetism and Magnetic Materials, 2016
[111] Effects of the particle size and temperature on the efficiency of nanofluids using molecular dynamic simulation
Numerical Heat Transfer, Part A: Applications, 2016
[112] Molecular dynamics simulation of pressure isotherms for nanofluids
Colloid Journal, 2016
[113] Bioconvection in MHD nanofluid flow with nonlinear thermal radiation and quartic autocatalysis chemical reaction past an upper surface of a paraboloid of revolution
International Journal of Thermal Sciences, 2016
[114] Experimental data on the dependence of the viscosity of water-and ethylene glycol-based nanofluids on the size and material of particles
Doklady Physics, 2016
[115] NANOAKIŞKANLARIN ISIL İLETKENLİK VE VİSKOZİTESİNİN DENEYSEL İNCELENMESİ: TANECİK BOYUTU ETKİSİ.
Journal of the Faculty of Engineering & Architecture of Gazi University, 2016
[116] Thermal conductivity and viscosity of deionised water and ethylene glycol-based nanofluids
Journal of Mechanical Engineering and Sciences, 2016
[117] Buoyancy induced model for the flow of 36 nm alumina-water nanofluid along upper horizontal surface of a paraboloid of revolution with variable thermal conductivity and viscosity
Powder Technology, 2016
[118] Исследование теплоотдачи наножидкостей в турбулентном режиме течения в цилиндрическом канале
2016
[119] Физика и механика процессов теплообмена в течениях наножидкостей
2016
[120] МОЛЕКУЛЯРНО-ДИНАМИЧЕСКОЕ МОДЕЛИРОВАНИЕ ИЗОТЕРМ ДАВЛЕНИЯ НАНОЖИДКОСТЕЙ
2016
[121] ЭКСПЕРИМЕНТАЛЬНЫЕ ДАННЫЕ О ЗАВИСИМОСТИ ВЯЗКОСТИ НАНОЖИДКОСТЕЙ НА ОСНОВЕ ВОДЫ И ЭТИЛЕНГЛИКОЛЯ ОТ РАЗМЕРА И МАТЕРИАЛА …
2016
[122] Effects of Nanoparticle Aggregation, Particle Size and Temperature of Nanofluids Using Molecular Dynamics Simulation
Thesis, 2016
[123] Зависимость коэффициента вязкости наножидкости от размера и материала наночастиц
2015
[124] Устойчивость течения Пуазейля наножидкости
2015
[125] Турбулентная вынужденная конвекция наножидкостей в круглом канале
2015
[126] ОСОБЕННОСТИ ТЕЧЕНИЙ НАНОЖИДКОСТЕЙ И МЕТОДЫ ИХ ОПИСАНИЯ
2015
[127] Измерение коэффициента теплоотдачи наножидкости на основе воды и частиц оксида меди
2015
[128] A heat transfer study of SiO 2 colloid flow in the thermal entry region of mini circular and square tubes
ProQuest Dissertations Publishing, 2015
[129] Experimental investigation on viscosity of water-based Al2O3 and TiO2 nanofluids
Rheologica Acta, 2015
[130] Empirical equation for the prediction of viscosity for some common nanofluids
Colloid Journal, 2015
[131] Measurement of the heat transfer coefficient of a nanofluid based on water and copper oxide particles in a cylindrical channel
High Temperature, 2015
[132] Simulation of the nanofluid viscosity coefficient by the molecular dynamics method
Technical Physics, 2015
[133] Thermal transport and tribological properties of nanogreases for metal-mechanic applications
Wear, 2015
[134] Natural convection of silica–water nanofluids based on experimental measured thermophysical properties: critical analysis
Heat and Mass Transfer, 2015
[135] Bioinspired Nanoparticulate Medical Glues for Minimally Invasive Tissue Repair
Advanced healthcare materials, 2015
[136] СОВРЕМЕННОЕ СОСТОЯНИЕ ИССЛЕДОВАНИЙ ВЯЗКОСТИ НАНОЖИДКОСТЕЙ
Физика, 2015
[137] Templated Dry Printing of Conductive Metal Nanoparticles
2015
[138] Análise tribo-termodinâmica da aplicação de nanopartículas de Al2O3 como aditivo lubrificante em compressor hermético de refrigeração
2015
[139] Transparent Silicone Calcium Fluoride Nanocomposite with Improved Thermal Conductivity
Macromolecular Materials and Engineering, Wiley Online library, 2015
[140] Primjena nanofluida u pločastom izmjenjivaču topline
2015
[141] ИЗМЕРЕНИЕ КОЭФФИЦИЕНТА ТЕПЛООТДАЧИ НАНОЖИДКОСТИ НА ОСНОВЕ ВОДЫ И ЧАСТИЦ ОКСИДА МЕДИ В ЦИЛИНДРИЧЕСКОМ КАНАЛЕ
2015
[142] Моделирование коэффициента вязкости наножидкости методом молекулярной динамики
2015
[143] Создание наножидкостей с заданными свойствами три года спустя
2015
[144] Моделирование уравнения состояния наножидкостей
2015
[145] Экспериментальное определение коэффициента теплоотдачи наножидкости в цилинд рическом мини-канале
2015
[146] Deliverable D 2.3
2015
[147] A Heat Transfer Study Of SiO2 Colloid Flow In The Thermal Entry Region Of Mini Circular And Square Tubes
2015
[148] Исследование зависимости коэффициента вязкости наножидкостей от различных параметров
2015
[149] Моделирование микро-и нанотечений
2014
[150] Dependence of the viscosity of nanofluids on nanoparticle size and material
Physics Letters A, Elsevier, 2014
[151] Measuring the heat-transfer coefficient of nanofluid based on copper oxide in a cylindrical channel
Technical Physics Letters, Springer, 2014
[152] Effects of metallic nanoparticle doped flux on the interfacial intermetallic compounds between lead-free solder ball and copper substrate
Materials Characterization, Elsevier, 2014
[153] Dependence of nanofluid on nanoparticle size and material
2014
[154] Nitrate based high temperature nano-heat-transfer-fluids: formulation & characterisation
2014
[155] Молекулярно-динамическое моделирование разделения наножидкости с помощью наномембран
Вестник Томского государственного университета. Математика и механика, 2014
[156] Measuring of critical density of heat flow during boiling of nanoliquids on a cylindrical heater
Technical Physics Letters, Springer, 2014
[157] МЕТОДЫ МОДЕЛИРОВАНИЯ МИКРО-И НАНОТЕЧЕНИЙ1
2014
[158] Измерение критической тепловой нагрузки при кипении наножидкостей
2014
[159] A REVIEW ON APPLICATIONS OF NANOPARTICLES TO ENHANCE THE PROPERTIES OF WATER BASED DRILLING FLUID
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