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Heat Transport Exploration for Hybrid Nanoparticle (Cu, Fe3O4)—Based Blood Flow via Tapered Complex Wavy Curved Channel with Slip Features

by Guedri, Kamel , Tag-ElDin, El Sayed Mohamed , Abbasi, A. , Farooq, W. , Galal, Ahmed M. , Khan, M. Ijaz , Waqas, M. , Elattar, Samia , Khan, Sami Ullah

in Arteries / Blood flow / Cardiovascular system / Casson hybrid nanoparticles / Composition / Copper / Electromagnetism / hall applications / Heat conductivity / Heat transfer / Iron oxides / Mathematical models / Nanoparticles / numerical approach / Partial differential equations / Peristalsis / peristaltic transport / Physical properties / slip effects / Temperature profiles / Thermal properties / Velocity / Viscosity

2022

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Heat Transport Exploration for Hybrid Nanoparticle (Cu, Fe3O4)—Based Blood Flow via Tapered Complex Wavy Curved Channel with Slip Features

by Guedri, Kamel , Tag-ElDin, El Sayed Mohamed , Abbasi, A. , Farooq, W. , Galal, Ahmed M. , Khan, M. Ijaz , Waqas, M. , Elattar, Samia , Khan, Sami Ullah

2022

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Heat Transport Exploration for Hybrid Nanoparticle (Cu, Fe3O4)—Based Blood Flow via Tapered Complex Wavy Curved Channel with Slip Features

by Guedri, Kamel , Tag-ElDin, El Sayed Mohamed , Abbasi, A. , Farooq, W. , Galal, Ahmed M. , Khan, M. Ijaz , Waqas, M. , Elattar, Samia , Khan, Sami Ullah

2022

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Journal Article

Heat Transport Exploration for Hybrid Nanoparticle (Cu, Fe3O4)—Based Blood Flow via Tapered Complex Wavy Curved Channel with Slip Features

Guedri, Kamel,

Tag-ElDin, El Sayed Mohamed,

Abbasi, A.,

Farooq, W.,

Galal, Ahmed M.,

Khan, M. Ijaz,

Waqas, M.,

Elattar, Samia,

Khan, Sami Ullah

2022

Overview

Curved veins and arteries make up the human cardiovascular system, and the peristalsis process underlies the blood flowing in these ducts. The blood flow in the presence of hybrid nanoparticles through a tapered complex wavy curved channel is numerically investigated. The behavior of the blood is characterized by the Casson fluid model while the physical properties of iron (Fe3O4) and copper (Cu) are used in the analysis. The fundamental laws of mass, momentum and energy give rise the system of nonlinear coupled partial differential equations which are normalized using the variables, and the resulting set of governing relations are simplified in view of a smaller Reynolds model approach. The numerical simulations are performed using the computational software Mathematica’s built-in ND scheme. It is noted that the velocity of the blood is abated by the nanoparticles’ concentration and assisted in the non-uniform channel core. Furthermore, the nanoparticles’ volume fraction and the dimensionless curvature of the channel reduce the temperature profile.

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Publisher

MDPI AG,MDPI

Subject

Arteries

/ Blood flow

/ Cardiovascular system

/ Casson hybrid nanoparticles

/ Composition

/ Copper

/ Electromagnetism