N. Suresh scite author profile

N. Suresh

4Publications

2Citation Statements Received

36Citation Statements Given

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Bharathiar University

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Quantification of free convection within a hemispherical annulus through a porous medium saturated by water-copper nanofluid

Baı̈ri

Suresh

Gayathri

et al. 2019

HFF

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Purpose A porous medium saturated with a nanofluid based on pure water and copper nanoparticles is used for cooling a hemispherical electronic device contained in an annulus space. The disc of the cavity could be inclined at an angle ranging from 0 ° (horizontal disc with dome facing upwards) to 180° (horizontal disc with dome facing downwards). The important surface heat flux generated by the dome leads to high Rayleigh number values reaching 7.29 × 10^10. The purpose of this work is to examine the influence of the nanofluid saturated porous medium on the free convective heat transfer. Design/methodology/approach Heat transfer occurring between this active component and the isothermal passive cupola is quantified by means of a three-dimensional numerical study using the control volume method associated to the SIMPLE algorithm. Findings The work shows that heat transfer in the annulus space is improved by interposing a porous medium saturated with the water-copper nanofluid. Originality/value New correlation is proposed to calculate the Nusselt number for any combination of the inclination angle, the fraction volume, the Rayleigh number and the ratio between the thermal conductivities of the porous medium and the fluid. The wide ranges corresponding to these parameters allow the thermal design of this electronic equipment for various configurations.

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Natural convection of alumina-water nanofluid in a partially heated square cavity with isothermal blockage inside with uniform magnetic field and heat generation/absorption

2022

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On 5f band occupation in shock compressed thorium

Gupta¹,

Suresh²,

Sikka³

1994

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Density Maximum Effect of Double-Diffusive Mixed Convection Heat Transfer in a Two-Sided Lid-Driven Porous Cavity

Nithyadevi

Rajarathinam

Suresh

2017

Special Topics Rev Porous Media

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N. Suresh

Quantification of free convection within a hemispherical annulus through a porous medium saturated by water-copper nanofluid

Natural convection of alumina-water nanofluid in a partially heated square cavity with isothermal blockage inside with uniform magnetic field and heat generation/absorption

On 5f band occupation in shock compressed thorium

Density Maximum Effect of Double-Diffusive Mixed Convection Heat Transfer in a Two-Sided Lid-Driven Porous Cavity

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