Analytical Solution of the Poiseuille Flow of Second-grade Blood Nanofluid: Comparison of Alumina, Graphene and Copper Nanoparticles

Authors

  • Venkat Rao Kanuri Department of Mathematics, SRKR Engineering College(A), Bhimavaram-534204, A.P, India
  • Venkata Chandra Sekhar Kasulanati Department of Mathematics, K L University, Vaddeswaram ¬- 522302, A.P, India
  • Potula Sree Brahmanandam Department of Basic Sciences, Shri Vishnu Engineering College for Women(A), Bhimavaram-534202, A.P, India
  • Shyam Sundar Mohan Kumar Medinty Department of Humanities and Basic Sciences, Aditya College of Engineering and Technology, Surampalem – 533437, A.P, India
  • Kandarpa Venkata Rama Srinivas Department of Humanities and Basic Sciences, GIET Engineering College, Rajahmundry – 533297, A.P, India

DOI:

https://doi.org/10.37934/arfmts.119.1.175188

Keywords:

Poiseuille flow, nanofluid, pipe flow, Newtonian flows, analytical solution

Abstract

Poiseuille flows are crucial in various fields, including engineering and the chemical industry, explaining phenomena such as increased blood pressure in narrowed capillaries and aiding in the design of fluid management systems. Traditionally, studies on Poiseuille flows have focused on Newtonian fluids in non-moving pipes, limiting advancements in the field. This research addresses the gap by exploring the Poiseuille flow of a viscoelastic non-Newtonian second-grade nanofluid. These second-grade fluids, applicable in polymer processing and cosmetics manufacturing, exhibit both shear-thinning and shear-thickening properties under certain conditions. The study analytically solves the flow characteristics of blood nanofluids, reducing the governing equations to ordinary differential equations using standard Poiseuille flow assumptions. The simulation results reveal that among the three nanofluids tested, graphene-blood nanofluid achieves the highest velocity, while copper-blood nanofluid exhibits the lowest. Additionally, the velocity of graphene-blood nanofluid decreases with an increase in volume percentage. This work not only advances the understanding of non-Newtonian fluid dynamics but also provides insights into optimizing fluid management systems in biomedical and industrial applications.

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Author Biographies

Venkat Rao Kanuri, Department of Mathematics, SRKR Engineering College(A), Bhimavaram-534204, A.P, India

k.ravi.msc@gmail.com

Venkata Chandra Sekhar Kasulanati, Department of Mathematics, K L University, Vaddeswaram ¬- 522302, A.P, India

chandu_fed@kluniversity.in

Potula Sree Brahmanandam, Department of Basic Sciences, Shri Vishnu Engineering College for Women(A), Bhimavaram-534202, A.P, India

anand1576@gmail.com

Shyam Sundar Mohan Kumar Medinty, Department of Humanities and Basic Sciences, Aditya College of Engineering and Technology, Surampalem – 533437, A.P, India

shyamsundar_bse@acoe.edu.in

Kandarpa Venkata Rama Srinivas, Department of Humanities and Basic Sciences, GIET Engineering College, Rajahmundry – 533297, A.P, India

srinivaskandarpa73@gmail.com

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Published

2024-07-15

How to Cite

Venkat Rao Kanuri, Venkata Chandra Sekhar Kasulanati, Potula Sree Brahmanandam, Shyam Sundar Mohan Kumar Medinty, & Kandarpa Venkata Rama Srinivas. (2024). Analytical Solution of the Poiseuille Flow of Second-grade Blood Nanofluid: Comparison of Alumina, Graphene and Copper Nanoparticles. Journal of Advanced Research in Fluid Mechanics and Thermal Sciences, 119(1), 175–188. https://doi.org/10.37934/arfmts.119.1.175188

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