Characterization of thermal and electrical properties of hybrid nanofluids prepared with multi-walled carbon nanotubes and Fe2O3 nanoparticles

Asadikia, Amir; Mirjalily, Seyed Ali Agha; Nasirizadeh, Navid; Kargarsharifabad, Hadi

doi:10.1016/j.icheatmasstransfer.2020.104603

Cited by 31 publications

(13 citation statements)

References 57 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Acharya [10] quantified the pattern of the flow and the behavior of heat transfer containing hybrid nanofluid induced by erratic solar radiation for different thermal apparatus of solar. Asadikia et al [11,12] prepared high-performance nanofluids using the electrical and thermal conductivities of carbon nanotubes and copper oxide nanoparticles to improve the properties of heat transfer. According to the experimental data, the thermal conductivity increases proportionally to the number of nanoparticles but decreases in alkaline environments.…”

Section: Nomenclaturementioning

confidence: 99%

“…Further presume that the variable far field or ambient velocity is emphasized via u e (r a , z a ) = 2br a z a and w e (r a , z a ) = −2bz 2 a , where b corresponds the arbitrary factor evaluating the magnitude of the AGF having dimensions (LT) −1 , see Weidman [31]. In addition, the wall variable velocity is highlighted via u w = b 2/3 υ 1/3 f r a along with the requisite posited Maxwell slip velocity [12] having slip length 2 − σ w σ w λ a ∂u a ∂z a have been employed to examine the momentum slip effect while the transparent constant mass flux is equal to w A , where w A < 0 is for the case of suction and w A > 0 is for the case of blowing. The Smoluchowski temperature slip [19] and the wall constant…”

Section: Mathematical Modeling Of the Problemmentioning

confidence: 99%

See 1 more Smart Citation

Stability Scrutinization of Agrawal Axisymmetric Flow of Nanofluid through a Permeable Moving Disk Due to Renewable Solar Radiation with Smoluchowski Temperature and Maxwell Velocity Slip Boundary Conditions

Khan¹,

Zaib²,

Ishak³

et al. 2023

Computer Modeling in Engineering &Amp; Sciences

View full text Add to dashboard Cite

The utilization of solar energy is essential to all living things since the beginning of time. In addition to being a constant source of energy, solar energy (SE) can also be used to generate heat and electricity. Recent technology enables to convert the solar energy into electricity by using thermal solar heat. Solar energy is perhaps the most easily accessible and plentiful source of sustainable energy. Copper-based nanofluid has been considered as a method to improve solar collector performance by absorbing incoming solar energy directly. The goal of this research is to explore theoretically the Agrawal axisymmetric flow induced by Cu-water nanofluid over a moving permeable disk caused by solar energy. Moreover, the impacts of Maxwell velocity and Smoluchowski temperature slip are incorporated to discuss the fine points of nanofluid flow and characteristics of heat transfer. The primary partial differential equations are transformed to similarity equations by employing similarity variables and then utilizing bvp4c to resolve the set of equations numerically. The current numerical approach can produce double solutions by providing suitable initial guesses. In addition, the results revealed that the impact of solar collector efficiency enhances significantly due to nanoparticle volume fraction. The suction parameter delays the boundary layer separation. Moreover, stability analysis is performed and is found that the upper solution is stable and physically trustworthy while the lower one is unstable.

show abstract

Section: Nomenclaturementioning

confidence: 99%

Section: Mathematical Modeling Of the Problemmentioning

confidence: 99%

Stability Scrutinization of Agrawal Axisymmetric Flow of Nanofluid through a Permeable Moving Disk Due to Renewable Solar Radiation with Smoluchowski Temperature and Maxwell Velocity Slip Boundary Conditions

Khan¹,

Zaib²,

Ishak³

et al. 2023

Computer Modeling in Engineering &Amp; Sciences

View full text Add to dashboard Cite

show abstract

“…Iron oxide (Fe 2 O 3 ) is a well-known semiconductor from period 4, which has been used extensively since a few decades ago in the industries for various fields of application such as magnetic resonance imaging, and electroplating (Asadikia et al 2020). Recently, iron oxide has gained considerable interest among researchers for wastewater treatment applications such as ion exchange, adsorbents, and photocatalysis (Pishnamazi et al 2020).…”

Section: Iron Oxidementioning

confidence: 99%

Simultaneous remediation of hexavalent chromium and organic pollutants in wastewater using period 4 transition metal oxide-based photocatalysts: a review

et al. 2021

View full text Add to dashboard Cite

The contamination by hexavalent chromium and organic pollutants is a serious health issue. Moreover, hexavalent chromium can react with organic pollutants to form a complex which is difficult to treat, and thus remains in the natural environment for long times. Simultaneous photocatalysis can remove both organic pollutants and hexavalent chromium. Here we review the use of period 4 metal oxide-based photocatalysts for the removal of organic pollutants and hexavalent chromium. Titanium dioxide exhibited the highest performance, up to 100%, in removing both hexavalent chromium and organic pollutants from water. KeywordsTransition metal oxide • Period 4 • Simultaneous redox • Hexavalent chromium • Organic pollutants • Photocatalysis Abbreviations PAN/TiO 2 /Ag Modified polyacrylonitrile by silverdoped titanium dioxide TiO 2 /BiOCl Titanium dioxide supported by bismuth oxychloride A/R-TiO 2 Anatase/rutile titanium dioxide A/R-TiO 2 /BiOI Anatase-/rutile titanium dioxidesupported bismuth oxyiodide NM/TiO 2 Natural melanin-supported titanium dioxide Cr(VI)/MO Hexavalent chromium/methyl orange system * A. A. Jalil

show abstract

“…They have reported that for a given Reynolds number, the nanofluid containing 2 vol.% Cu nanoparticles had greater (by 60%) convective heat transfer coefficient in comparison to pure water. Additionally, in several investigations it has been shown that the nanofluids possessing low amount of nanoparticles can have 10% higher thermal conductivity [13][14][15][16][17][18][19][20]. In another research, Naphon [21] thermal conductivity of the fluid containing only 0.3 vol.% Cu nanoparticles was increased by about 40% which is significant.…”

Section: Introductionmentioning

confidence: 95%

Experimental investigation of Silver / Water nanofluid heat transfer in car radiator

Jarrah

Mohtasebi

Ettefaghi³

et al. 2021

JMES

View full text Add to dashboard Cite

Currently available fluids for heat transfer including refrigerants, water, ethylene glycol mixture, etc., have been widely exploited in various fields, especially in automobile cooling systems, for many years. However, these fluids possess poor heat transfer capability which means that to achieve acceptable heat transfer activity, high compactness and effectiveness of heat transfer systems are essential. This research work concentrates on preparation and use of water based Silver containing nanofluids in automobile cooling system. Nanoparticles volume fraction, fluid inlet temperature, coolant and air Reynolds numbers were optimized so that the heat transfer performance of the car radiator system was totally improved. It was found that increasing these parameters leads to enhancement of the heat transfer performance. In the best condition, the Ag/water nanofluids with low concentrations could amend heat transfer efficiency up to 30.2% in comparison to pure water.

show abstract

Characterization of thermal and electrical properties of hybrid nanofluids prepared with multi-walled carbon nanotubes and Fe2O3 nanoparticles

Cited by 31 publications

References 57 publications

Stability Scrutinization of Agrawal Axisymmetric Flow of Nanofluid through a Permeable Moving Disk Due to Renewable Solar Radiation with Smoluchowski Temperature and Maxwell Velocity Slip Boundary Conditions

Stability Scrutinization of Agrawal Axisymmetric Flow of Nanofluid through a Permeable Moving Disk Due to Renewable Solar Radiation with Smoluchowski Temperature and Maxwell Velocity Slip Boundary Conditions

Simultaneous remediation of hexavalent chromium and organic pollutants in wastewater using period 4 transition metal oxide-based photocatalysts: a review

Experimental investigation of Silver / Water nanofluid heat transfer in car radiator

Contact Info

Product

Resources

About