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A Numerical Investigation of Activation Energy Impact on MHD Water-Based Fe 3 O 4 and CoFe 2 O 4 Flow between the Rotating Cone and Expanding Disc

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  • Kandavkovi Mallikarjuna Nihaal

    (Department of Studies in Mathematics, Davangere University, Shivagangothri, Davangere 577007, India)

  • Ulavathi Shettar Mahabaleshwar

    (Department of Studies in Mathematics, Davangere University, Shivagangothri, Davangere 577007, India)

  • Nedunchezhian Swaminathan

    (Department of Engineering, University of Cambridge, Cambridge CB2 1PZ, UK)

  • David Laroze

    (Instituto de Alta Investigación, Universidad de Tarapacá, Casilla 7 D, Arica 1000000, Chile)

  • Igor V. Shevchuk

    (Faculty of Computer Science and Engineering Science, TH Koln-University of Applied Sciences, 51643 Gummersbach, Germany)

Abstract

Hybrid nanofluids have caught the attention of scholars and investigators in the present technological period due to their improved thermophysical features and the desire to boost heat transfer rates compared to those of conventional fluids. The present paper is mainly concerned with heat transmission in cone-disk geometry in the presence of a magnetic field, activation energy, and non-uniform heat absorption/generation. In this work, the cone-disk (CD) apparatus is considered to have a rotating cone (RC) and a stretching disk, along with iron oxide and cobalt ferrite-based hybrid nanofluid. Appropriate similarity transformations are employed to change the physically modeled equations into ordinary differential equations (ODEs). Heat transfer rates at both surfaces are estimated by implementing a modified energy equation with non-uniform heat absorption/generation. The outcomes illustrated that the inclusion of such physical streamwise heat conduction variables in the energy equation has a significant impact on the well-known conclusions of heat transfer rates. To understand flow profile behavior, we have resorted to the RKF-45 method and the shooting method, which are illustrated using graphs. The findings provide conclusive evidence that wall stretching alters the flow, heat, and mass profile characteristics within the conical gap. The wall deformation caused by disk stretching was found to have a potential impact of modifying the centripetal/centrifugal flow characteristics of the disk, increasing the flow velocity and swirling angles. A rise in activation energy leads to an improved concentration field.

Suggested Citation

  • Kandavkovi Mallikarjuna Nihaal & Ulavathi Shettar Mahabaleshwar & Nedunchezhian Swaminathan & David Laroze & Igor V. Shevchuk, 2024. "A Numerical Investigation of Activation Energy Impact on MHD Water-Based Fe 3 O 4 and CoFe 2 O 4 Flow between the Rotating Cone and Expanding Disc," Mathematics, MDPI, vol. 12(16), pages 1-20, August.
  • Handle: RePEc:gam:jmathe:v:12:y:2024:i:16:p:2530-:d:1457436
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    References listed on IDEAS

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    1. Fateh Mebarek-Oudina & Ines Chabani, 2023. "Review on Nano Enhanced PCMs: Insight on nePCM Application in Thermal Management/Storage Systems," Energies, MDPI, vol. 16(3), pages 1-21, January.
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