Numerical investigation of nanofluid transportation in a curved cavity in existence of magnetic source

Mohsen Sheikholeslami; D.D. Ganji

doi:10.1016/j.cplett.2016.11.013

Numerical investigation of nanofluid transportation in a curved cavity in existence of magnetic source

Chemical Physics Letters 667: 307-316

Article 2016 English

Abstract

1 min read

Thermal radiation impact on magnetic nanofluid heat transfer in a curved cavity is studied. Impact of external magnetic source is taken into account. Innovative numerical method is chosen namely CVFEM. Impacts of radiation parameter ( Rd ) , Rayleigh ( Ra ) , Hartmann ( Ha ) numbers and volume fraction of Fe3O4 ( ϕ ) on hydrothermal treatment are examined. Results indicate that temperature gradient enhances with augment of Ra , ϕ , but it reduces with rise of Rd , Ha . Lorentz forces cause the nanofluid velocity to reduce and augment the thermal boundary layer thickness. Impact of radiation becomes stronger for higher buoyancy forces.

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