magneto-hybrid nanofluids flow via mixed convection

DR SADIA SIDDIQA

convection flow in presence of strong cross magnetic field International Journal of Heat and Mass Transfer 55 5120-5132 2012 (IF: 2 315) 10 Sadia Siddiqa M A Hossain Mixed convection boundary layer flow over a vertical flat plate with radiative heat transfer Applied Mathematics 3 705-716 2012 11

Heat transfer enhancement in free convection flow of CNTs

Khan et al 32 studied mixed convection axisymmetric chemically reactive flow of Maxwell fluid Zhang et al 33 and Kandasamy et al 34 examined carbon nanotubes nanofluids Implementation of Laplace transform for the exact impact of MHD on heat transfer of CNTs nanofluids is studied by Ebaid and Sharif 35 Wang et al 36 detected

Numerical Study of Mixed Convection in a Lid

In the present study mixed convection laminar flow around an adiabatic body in a Lid-driven enclosure filled with nanofluid using variable thermal conductivity and variable viscosity is numerically investigated The fluid around the body in the enclosure is a water-based nanofluid containing Al2O3 nanoparticles The Vertical

MHD mixed convection stagnation

May 29 2020This study focused on Cu-Al 2 O 3 /water hybrid nanofluid to address the issue related to mixed convection stagnation-point flow and heat transfer over a permeable stretching/shrinking sheet with the magnetic field and heat source/sink effects The governing equations of the problem are initially reduced into similarity equations by utilizing similarity

NUMERICAL STUDY OF MIXED CONVECTION BOUNDARY

The steady mixed convection boundary layer flow over a horizontal circular cylinder filled with nanofluids has been investigated numerically using different types of nanoparticles These nanoparticles presences in the fluids increase the thermal conductivity up to approximately two times and thus enhancing the performance of the heat transfer

Mixed Convection in Superposed Nanofluid and Porous

Mixed convection flow and heat transfer in enclosures are encountered in a number of industrial applications such as float glass manufacturing during solidification of ingots coating or continuous reheating furnaces and any application possesses a solid material motion inside a chamber The mixed

DESIGN OF A VERTICAL ANNULUS WITH MHD FLOW USING

mixed convection in a channel made of two parallel plates Later on Tasnim et al [14] solved thesameproblemusing porousmedia MahmudandFraser[15]analytically investigated theen-tropy generation due to mixed convection-radiation interaction in a vertical porous channel in the presence of MHD flow

MHD Effects on Mixed Convective Nanofluid Flow with

In existence of concerning magnetic field heat together with mass transfer features on mixed convective copper-water nanofluid flow through inclined plate is investigated in surrounding porous medium together with viscous dissipation A proper set of useful similarity transforms is considered as to transform the desired governing equations into a system as ordinary

Numerical Study of Mixed Convection in a Lid

In the present study mixed convection laminar flow around an adiabatic body in a Lid-driven enclosure filled with nanofluid using variable thermal conductivity and variable viscosity is numerically investigated The fluid around the body in the enclosure is a water-based nanofluid containing Al2O3 nanoparticles The Vertical

MHD flow of fractional Newtonian fluid embedded in a

I Khan A Gul and S Shafie Effects of magnetic field on molybdenum disulfide nanofluids in mixed convection flow inside a channel filled with a saturated porous medium Journal of Porous Media 20 (2017) 77-82 Google Scholar [33]

Simulation of forced convection in a channel with

Apr 17 2013The thermal performance of different types of nanofluids has been the subject of many recent studies on forced natural and mixed convection problems Several explorations have studied natural convection of nanofluids in cavities [9 10] They argued that the addition of nanoparticles in the fluid indisputably increase the natural convection

ARFMTS Vol 55 No 2 P189

keyword 3-D turning diffuser turbulence intensity pressure recovery coefficient flow uniformity Computational Fluid Dynamics (CFD) 3D printing Fused deposition modeling Vapor treatment process Additive Manufacturing Absorption carbon dioxide solubility N

Second Law Analyses of Forced Convection of Low

to investigate the forced convection flow through a horizontal microchannel filled with water-Al2O3 nanofluid in the presence of a magnetic field They analyzed the effects of relevant parameters such as Reynolds and Hartmann numbers and volume fraction of nanoparticles on flow field and heat transfer

Influence of Arrhenius activation energy in chemically

The forthright intention of this study is to scrutinize the up-to-date advances in nanofluids by utilizing the properties of nonlinear mixed convection and binary chemical reaction with Arrhenius activation energy in time-dependent Carreau nanofluid flow The energy and concentration terminologies contain Brownian and thermophoresis nanoparticles The silent

Simulation of forced convection in a channel with

Apr 17 2013The thermal performance of different types of nanofluids has been the subject of many recent studies on forced natural and mixed convection problems Several explorations have studied natural convection of nanofluids in cavities [9 10] They argued that the addition of nanoparticles in the fluid indisputably increase the natural convection

Personal Information: Science Publishing Group

2 M Goodarzi M R Safaei Hakan F Oztop E Sadeghinezhad M Dahari and S N Kazi Numerical Study of Entropy Generation due to Coupled Laminar and Turbulent Mixed Convection Heat Transfer and Thermal Radiation in a Square Enclosure Filled with a Semitransparent Medium The Scientific World Journal 2014 Article ID 761745 8 pages 2014

Convective heat transfer

Convective heat transfer often referred to simply as convection is the transfer of heat from one place to another by the movement of fluids Convection is usually the dominant form of heat transfer in liquids and gases Although often discussed as a distinct method of heat transfer convective heat transfer involves the combined processes of unknown conduction (heat

Mixed convection boundary layer flow from a vertical

Dec 03 2018The purpose of this paper is to investigate the steady mixed convection boundary layer flow from a vertical frustum of a cone in water-based nanofluids The problem is formulated to incorporate three kinds of nanoparticles: copper alumina and titanium oxide The working fluid is chosen as water with the Prandtl number of 6 2

NUMERICAL INVESTIGATION OF HEAT TRANSFER AND

of adding nanofluids to the base fluid in increasing the natural convection heat transfer has been considered From the research conducted in this area the effect of natural convection flow of water-cooper nanofluids in a two-dimensional chamber by Khanafer et al 2011 can be mentioned (Khanafer Vafai Lightstone 2003)

Heat transfer enhancement in free convection flow of CNTs

Khan et al 32 studied mixed convection axisymmetric chemically reactive flow of Maxwell fluid Zhang et al 33 and Kandasamy et al 34 examined carbon nanotubes nanofluids Implementation of Laplace transform for the exact impact of MHD on heat transfer of CNTs nanofluids is studied by Ebaid and Sharif 35 Wang et al 36 detected

Numerical investigation of nanofluids forced convection in

3 nanofluids in a radial cooling system was accomplished in Roy et al [35] They found that addition of nanoparticles in the base fluid increases the heat transfer rates considerably Laminar forced convection flow of nanofluids between two coaxial and parallel disks with central axial

Flow Loop Experiments Using Polyalphaolefin Nanofluids

May 23 2012Effect of viscous dissipation on finding dual solutions for mixed convection boundary layer flow for nanofluid 18 July 2019 | Heat Transfer-Asian Research Vol 48 No 6 An experimental investigation and modelling of the thermal and caloric properties of nanofluids isopropyl alcohol - Al2O3 nanoparticles

Journal

Effects of magnetic field on molybdenum disulfide nanofluids in mixed convection flow inside a channel filled with a saturated porous medium Journal of Porous Media 20(5) (Q3 Impact factor 2016: 1 144) Ullah I Shafie S and Khan I 2017 MHD free convection flow of Casson fluid over a permeable nonlinearly stretching sheet with

Numerical investigation of nanofluids forced convection in

3 nanofluids in a radial cooling system was accomplished in Roy et al [35] They found that addition of nanoparticles in the base fluid increases the heat transfer rates considerably Laminar forced convection flow of nanofluids between two coaxial and parallel disks with central axial

Second Law Analyses of Forced Convection of Low

to investigate the forced convection flow through a horizontal microchannel filled with water-Al2O3 nanofluid in the presence of a magnetic field They analyzed the effects of relevant parameters such as Reynolds and Hartmann numbers and volume fraction of nanoparticles on flow field and heat transfer

NUMERICAL INVESTIGATION OF AN UNSTEADY MIXED

MHD non-Darcy unsteady mixed convective heat and mass transfer flow over a stretching sheet via shooting algorithm with Runge–Kutta Fehlberg integration convection flow of some nanofluids past a vertical infinite flat plate with radiation on unsteady mixed convection flow and mass transfer over a porous stretching surface

NUMERICAL INVESTIGATION OF AN UNSTEADY MIXED

MHD non-Darcy unsteady mixed convective heat and mass transfer flow over a stretching sheet via shooting algorithm with Runge–Kutta Fehlberg integration convection flow of some nanofluids past a vertical infinite flat plate with radiation on unsteady mixed convection flow and mass transfer over a porous stretching surface

MHD flow of fractional Newtonian fluid embedded in a

I Khan A Gul and S Shafie Effects of magnetic field on molybdenum disulfide nanofluids in mixed convection flow inside a channel filled with a saturated porous medium Journal of Porous Media 20 (2017) 77-82 Google Scholar [33]