Hybrid Investigation of Thermal Conductivity and Viscosity Changeable With Generation/Absorption Heat Source

Pasha, Pooya; Nabi, Hossein; Peiravi, Mohammad Mohsen; Ganji, D.D.

doi:10.1615/computthermalscien.2021039390

Cited by 11 publications

(7 citation statements)

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“…24 Since nonlinear equations through the physics of the problem create physical insight for the individual, in the field of engineering, better analytical methods for dealing with nonlinear equations have been studied. 25–45 Rahbari et al 46 examined the effects of nanoparticles in the bloodstream, which is considered a third-degree non-Newtonian fluid, in the presence of a magnetic field using the HPM method. Shahzadi and Nadeem 47 examined the blood along with the copper and silver particles under the influence of the magnetic field and considering the convective boundary conditions and found that the presence of nanoparticles in the blood increased the speed.…”

Section: Introductionmentioning

confidence: 99%

Hydrothermal analysis on non-Newtonian nanofluid flow of blood through porous vessels

Hosseinzadeh

Hasibi

2022

Proceedings of the Institution of Mechanical Engineers, Part E:

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In this paper, the flow of non-Newtonian blood fluid with nanoparticles inside a vessel with a porous wall in presence of a magnetic field have been investigated. This study aimed to investigate various parameters such as magnetic field and porosity on velocity, temperature, and concentration profiles. In this research, three different models (Vogel, Reynolds and Constant) for viscosity have been used as an innovation. The governing equations are solved by Akbari-Ganji's Method (AGM) analytical method and the Finite Element Method (FEM) is used to better represent the phenomena in the vessel. The results show that increasing the Gr number, porosity and negative pressure increase the blood velocity and increasing the magnetic field intensity decrease the blood velocity.

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Section: Introductionmentioning

confidence: 99%

Hydrothermal analysis on non-Newtonian nanofluid flow of blood through porous vessels

Hosseinzadeh

Hasibi

2022

Proceedings of the Institution of Mechanical Engineers, Part E:

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“…It is a novel subject that is utilized in the aerospace industry. In addition, MHD is one of the procedures that can influence heat and flow on a stretching surface 1–21 . Titanium dioxide, too known as titanium (IV) oxide or titania, is the noted oxide of titanium, chemical equation TiO 2 .…”

Section: Introductionmentioning

confidence: 99%

Surveying the hybrid of radiation and magnetic parameters on Maxwell liquid with TiO₂ nanotube influence of different blades

et al. 2022

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“…MWCNT nanotubes can be used as structural additions in a variety of materials. Nanotubes for example make up a small percentage of the material in some baseball bats and golf clubs [1–10]. Krishna et al.…”

Section: Introductionmentioning

confidence: 99%

Hybrid surveying of radiation and magnetic impacts on Maxwell fluid with MWCNT nanotube influence of two wire loops

et al. 2022

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In this paper, the effects of Maxwell nanoliquid transmission with MWCNT nanotube are investigated over two circular wires with opposite currents and a stretching sheet. The innovation of this paper is the examination of MWCNT nanotube temperature and nanofluid velocity and also magnetic potential and magnetic effect in the three different places of two circular wires on the sheet. The finite element method is utilized for calculating differential equations. By increasing the distance from two wires on the stretching sheet, the amount of MWCNT nanotube temperature increased, and a large vortex forms at the bottom of the sheet. Overall, the MWCNT nanotube velocity around the two circular wires at the beginning of the sheet is 46.09% higher than the middle of the sheet and 20% higher than the end of the sheet, also the MWCNT nanotube magnetic potential around the two circular wires at the beginning of the sheet is 13.40% higher than the middle of the sheet and 23% higher than the end of the sheet. The second part of the essay relates to the using response surface methodology (RSM) method in the Design‐Expert software. Based on the results obtained from the MWCNT nanotube velocity graphs and the heat transfer cantors, and magnetism effects in the Design‐Expert software, the best optimization occurred for u = 0.07, T = 1.15, and H = 4.531.

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Hybrid Investigation of Thermal Conductivity and Viscosity Changeable With Generation/Absorption Heat Source

Cited by 11 publications

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Hydrothermal analysis on non-Newtonian nanofluid flow of blood through porous vessels

Hydrothermal analysis on non-Newtonian nanofluid flow of blood through porous vessels

Surveying the hybrid of radiation and magnetic parameters on Maxwell liquid with TiO₂ nanotube influence of different blades

Hybrid surveying of radiation and magnetic impacts on Maxwell fluid with MWCNT nanotube influence of two wire loops

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Hybrid Investigation of Thermal Conductivity and Viscosity Changeable With Generation/Absorption Heat Source

Cited by 11 publications

References 0 publications

Hydrothermal analysis on non-Newtonian nanofluid flow of blood through porous vessels

Hydrothermal analysis on non-Newtonian nanofluid flow of blood through porous vessels

Surveying the hybrid of radiation and magnetic parameters on Maxwell liquid with TiO2 nanotube influence of different blades

Hybrid surveying of radiation and magnetic impacts on Maxwell fluid with MWCNT nanotube influence of two wire loops

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Surveying the hybrid of radiation and magnetic parameters on Maxwell liquid with TiO₂ nanotube influence of different blades