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Enhancing Pharmacological Applications: Investigating Convective Heat Transfer in Nanoparticles within Blood Flow through CFD Simulation using ANSYS FLUENT

Choglay, Khalid; Anwar Bég, O; Kuharat, S; Kadir, Ali

Authors

Khalid Choglay



Abstract

Efficient heat transfer in blood is a crucial aspect of various medical treatments that involve localized heating or cooling, such as Hyperthermia Treatment, Cryotherapy, and Hypothermia Treatment. Understanding the convective heat transfer in blood flow, particularly when it contains nanoparticles, can provide valuable insights for these treatments. In this study, an analytical investigation was conducted to explore convective heat transfer in blood as it flows through a bifurcated carotid artery. The computational fluid dynamics (CFD) finite volume method, specifically utilizing ANSYS Fluent software, was employed to analyze the problem of three-dimensional, steady-state, and incompressible laminar blood flow with constant heat flux.

Citation

Choglay, K., Anwar Bég, O., Kuharat, S., & Kadir, A. (2023, July). Enhancing Pharmacological Applications: Investigating Convective Heat Transfer in Nanoparticles within Blood Flow through CFD Simulation using ANSYS FLUENT. Presented at Glasgow University Computational Biology Conference 2023, Glasgow, Scotland

Presentation Conference Type Other
Conference Name Glasgow University Computational Biology Conference 2023
Conference Location Glasgow, Scotland
Start Date Jul 3, 2023
End Date Jul 4, 2023
Deposit Date Jul 12, 2023
Publisher URL https://cbc.dcs.gla.ac.uk/


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