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Hybrid nanomaterial treatment within a permeable tank considering irreversibility

Yu‐Ming Chu, Mohammed Baqer Almusawi, Mohammed Reza Hajizadeh, Shao-Wen Yao, Quang‐Vu Bach

2020International Journal of Modern Physics C47 citationsDOI

Abstract

In this paper, porous chamber with considering nanomaterial as operating fluid has been scrutinized. The transportation of nanopowder was controlled by magnetic force and insert of porous media boosts the cooling rate. Such zone needs special model to involve the impact of porous media and in this paper, non-Darcy technique was utilized. Low fraction of hybrid nanomaterial leads to good accuracy of homogeneous model and empirical correlations have been employed to forecast the features of operating fluid. Entropy generation was studied to find the influence of each term on irreversibility of unit. Also, two significant functions were calculated, namely, Be and Nu. Influences of Ra, Da and Ha on contours plots were reported in outputs. As Ra augments, the convection becomes stronger and augmentation of [Formula: see text] proves this fact. Also, temperature of elliptic surface declines about 48% with intensifying Ra. Temperature of elliptic surface augments about 34.6% with augment of Ha while it declines about 25.7% considering greater permeability. Nu augments about 238%, 11.49% with rise of Ra, Da but it declines about 28.3% with rise of Ha. Be intensifies with rise of Ha about 7.76% while it reduces about 75.2% with augmentation of Ra.

Topics & Concepts

Porous mediumPermeability (electromagnetism)HomogeneousNanomaterialsPorosityConvectionMaterials scienceMechanicsThermodynamicsMathematicsNanotechnologyPhysicsChemistryComposite materialMembraneBiochemistrySolar-Powered Water Purification MethodsNanofluid Flow and Heat TransferHeat Transfer and Optimization
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