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Investigation of MHD oxytactic microorganisms with NEPCMs in rectotrapezoidal enclosure with FEM: Applications to energy storage technologies

Shafqat Hussain, J. Prakash, Bander Almutairi, Katta Ramesh

2024Journal of Magnetism and Magnetic Materials51 citationsDOIOpen Access PDF

Abstract

Nanoparticle-enhanced phase change materials (NEPCMs) have gained significant attention in recent years due to their unique ability to enhance the thermal properties and overall performance of phase change materials (PCMs). The present work investigates the bioconvection flow of nano-encapsulated phase change material within a rectotrapezoidal cavity. The left wall of the is fixed at the constant high temperature whereas the right vertical wall is kept at cold temperature. The higher order Galerkin finite element method (GFEM) has been employed to simulate the proposed problem. The discrete systems of nonlinear equations are linearized by implementing the adaptive Newtons method. Influence of various pertinent parameters such as inclined magnetic field, oxytactic bacteria, radiation and Lewis number has been analyzed. It is observed that the average Sherwood and Nusselt number exhibit a positive correlation with the Hartmann and radiation parameter. Moreover, the average heat transfer exhibits a decreasing trend as the Hartmann, bioconvection Rayleigh and Peclet increase.

Topics & Concepts

Nusselt numberLewis numberMechanicsMaterials scienceHartmann numberFinite element methodSherwood numberEnclosureNanofluidRayleigh numberHeat transferGalerkin methodPéclet numberThermodynamicsNatural convectionPhysicsMass transferComputer scienceTurbulenceReynolds numberTelecommunicationsNanofluid Flow and Heat TransferPhase Change Materials ResearchHeat Transfer and Optimization
Investigation of MHD oxytactic microorganisms with NEPCMs in rectotrapezoidal enclosure with FEM: Applications to energy storage technologies | Litcius