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MXene (Ti3C2) embedded blood flow on curved stretching artery: Thermal analysis due to nanoparticle shape factor.

Authors :
Rathore, Niraj
Nabwey, Hossam A.
Sandeep, N.
Source :
Numerical Heat Transfer: Part A -- Applications. 2024, Vol. 85 Issue 16, p2682-2702. 21p.
Publication Year :
2024

Abstract

The 2-D MXene material has garnered immense attention in the multidisciplinary region due to its high surface area, excellent electrical conductivity, good biocompatibility, and tunable physicochemical properties. MXene nanoparticles can be utilized in thermal ablation to destroy unwanted tissues and tumors without invasive surgery. Therefore, this work investigates MXene (Ti3C2) embedded blood flow over a curved shape stretching artery. The mathematical model for hybrid blood flow is developed to see the thermal changes due to external pressure and diffusion. Furthermore, the flow model PDEs are equipped with Darcy-Forchheimer's condition, external magnetic force, thermal radiation, and heat source/sink. These PDEs are converted into a system of ODEs by a proper similarity conversion. The solution of governing equations are acquired numerically, the flow and thermal performance outputs are exhibited through pictorial and tabular representations. It is revealed that the thermal performance is enhanced due to sphere shaped MXene (Ti3C2) nanoparticles. The outcomes of this study can be utilized in photothermic therapy and other applications where heat transfer plays an essential role. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
10407782
Volume :
85
Issue :
16
Database :
Academic Search Index
Journal :
Numerical Heat Transfer: Part A -- Applications
Publication Type :
Academic Journal
Accession number :
178359485
Full Text :
https://doi.org/10.1080/10407782.2023.2228481