Table 1 Summary of the latest reviews on some specialized aspects of nanofluids
From: Toward TiO2 Nanofluids—Part 1: Preparation and Properties
Researchers | Year | The aspect of reviews focusing on | Classification |
|---|---|---|---|
Kong et al. [30] | 2017 | Preparation, characterization, and tribological mechanism | Preparation and characterization |
Sharma et al. [31] | 2016 | Preparation and evaluation of stable nanofluids | Preparation and characterization |
Yazid et al. [32] | 2016 | Preparation on stability of carbon nanotube nanofluids | Preparation and characterization, particle type: CNT nanofluids |
Sundar et al. [33] | 2017 | Preparation, thermal properties, heat transfer, and friction factor of hybrid nanofluids | Particle type: hybrid nanofluids |
Khurana et al. [34] | 2017 | Forced convection heat transfer and pressure drop of Al2O3, TiO2, and CuO nanofluids | Particle type: Al2O3, TiO2, and CuO nanofluids |
Yang et al. [35] | 2017 | Heat transfer of TiO2 nanofluids | Particle type: TiO2 nanofluids |
Sidik et al. [36] | 2016 | Hybrid nanofluids in heat transfer applications | Particle type: hybrid nanofluids |
Rasheed et al. [37] | 2016 | Graphene-based nanofluids | Particle type: graphene nanofluids |
Sadeghinezhad et al. [38] | 2016 | Graphene nanofluids | Particle type: graphene nanofluids |
Akilu et al. [39] | 2016 | Thermophysical properties of water-based composite nanofluids | Base fluid type: water |
Murshed et al. [40] | 2016 | Conduction and convection heat transfer characteristics of ethylene glycol-based nanofluids | Base fluid type: ethylene glycol |
Azmi et al. [41] | 2016 | Heat transfer augmentation of ethylene glycol: water nanofluids and applications | Base fluid type: ethylene glycol/water mixture |
Rafiq et al. [42] | 2015 | Properties of transformer oil-based nanofluids | Base fluid type: transformer Oil |
Mukherjee et al. [43] | 2016 | Role of temperature on thermal conductivity of nanofluids | Physical property: thermal conductivity |
Bashirnezhad et al. [44] | 2016 | Experimental studies of viscosity of nanofluids | Physical property: viscosity |
Azmi et al. [45] | 2016 | Thermal conductivity and dynamic viscosity of nanofluids | Physical property: thermal conductivity and viscosity |
Aybar et al. [46] | 2015 | Thermal conductivity models | Physical property: thermal conductivity models |
Sharma et al. [47] | 2016 | Rheological behavior of nanofluids | Physical property: rheological behavior |
Bahiraei et al. [48] | 2016 | Particle migration in nanofluids | Characteristics: particle migration in nanofluids |
Pinto et al. [49] | 2016 | Heat transfer enhancement mechanisms | Characteristics: heat transfer mechanisms |
Singh and Gupta [50] | 2016 | Heat transfer in a tube under constant heat flux boundary condition | Characteristics: heat transfer in tube for constant heat flux |
Fang et al. [51] | 2016 | Heat transfer and critical heat flux of nanofluid boiling | Characteristics: boiling heat transfer |
Huminic and Huminic [52] | 2016 | Heat transfer and flow characteristics in curved tubes | Characteristics: heat transfer and flow in curved tubes |
Vanaki et al. [53] | 2016 | Numerical study of convective heat transfer | Characteristics: convective heat transfer |
Cai et al. [133] | 2017 | Fractal-based approaches in aggregation | Research method: fractal method |
Verma et al. [54] | 2017 | Application in solar collectors | Application: solar collectors |
Kasaeian et al. [55] | 2017 | Flow and heat transfer in porous media | Application: porous media |
M’hamed et al. [56] | 2016 | External magnetic field on nanofluids | Application: coupled with magnetic field |
Muhammad et al. [57] | 2016 | Thermal performance of stationary solar collectors | Application: solar collectors |
Khond and Kriplani [58] | 2016 | Performances and emissions of emulsified diesel and biodiesel fueled stationary CI engine | Application: stationary CI engine |
Hussien et al. [59] | 2016 | Single-phase heat transfer enhancement in micro/minichannels | Application: micro/minichannels |
Patil et al. [60] | 2015 | Thermo-physical properties and performance characteristics of a refrigeration system | Application: refrigeration |
Sarsam et al. [61] | 2015 | Nanofluids in flat-plate solar collectors | Application: solar collectors |
Kumar et al. [62] | 2015 | Nanofluids in plate heat exchanger | Application: plate heat exchanger |