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Journal of Thermal Analysis and Calorimetry, ISSN 1388-6150, 11/2016, Volume 126, Issue 2, pp. 891 - 904
A study on the flow and heat transfer characteristics of nanofluid forced convection in an annular porous medium, as the main part of a cylindrical heat pipe,... 
Polymer Sciences | Porous media | Chemistry | Analytical Chemistry | Measurement Science and Instrumentation | Physical Chemistry | Nanofluid | Hydrothermal performance | Inorganic Chemistry | Cylindrical heat pipe
Journal Article
Powder Technology, ISSN 0032-5910, 11/2016, Volume 301, pp. 234 - 254
Forced convection of copper–water nanofluid through a channel partially filled by a centrally located, porous insert is considered. Constant heat flux boundary... 
Local thermal non-equilibrium | Porous media | Forced convection | Nanofluid | Entropy generation | NATURAL-CONVECTION | SQUARE | MHD FLOW | ENGINEERING, CHEMICAL | TRANSPORT | SURFACE | MEDIA | MAGNETIC NANOFLUID | NUMERICAL-SIMULATION | TEMPERATURE-FIELDS
Journal Article
International Journal of Heat and Mass Transfer, ISSN 0017-9310, 11/2012, Volume 55, Issue 23-24, pp. 7175 - 7187
The current study is focused to investigate the natural convective heat transfer characteristics in a porous square annulus. Finite element method is used as a... 
Square annulus | Heat transfer | Porous medium | FEM | VERTICAL ANNULUS | DUCT | HEAT-TRANSFER | BRINKMAN FORCED-CONVECTION | MIXED CONVECTION | FLOW | ENGINEERING, MECHANICAL | ENTROPY GENERATION | MECHANICS | THERMODYNAMICS | CHANNEL | MEDIA | VISCOUS DISSIPATION | Finite element method | Nuclear radiation | Mechanical engineering
Journal Article
Meccanica, ISSN 0025-6455, 2/2019, Volume 54, Issue 3, pp. 505 - 524
In this paper, a lattice Boltzmann method is employed to simulate the conjugate radiation–forced convection heat transfer in a porous medium. The absorbing,... 
Conjugate radiation–forced convection | Lattice Boltzmann | Classical Mechanics | Civil Engineering | Porous medium | Automotive Engineering | Mechanical Engineering | Porosity | Conduction radiation ratio | Physics | MECHANICS | Conjugate radiation-forced convection | LBM | AIR | MODEL | EXCHANGERS | FLOW | Silicon carbide | Mechanical engineering | Analysis | Methods | Radiation
Journal Article
Journal of Molecular Liquids, ISSN 0167-7322, 04/2017, Volume 231, pp. 555 - 565
Journal Article
International Journal of Heat and Mass Transfer, ISSN 0017-9310, 05/2018, Volume 120, pp. 772 - 781
•EHD nanofluid natural convection in a porous media is investigated.•CVFEM is employed for numerical procedure.•Effect of shape of nanoparticles on nanofluid... 
Porous media | Electric field | Thermal radiation | CVFEM | Nanofluid | Shape of nanoparticles | Free convection | LORENTZ FORCES | HEAT-TRANSFER ENHANCEMENT | FORCED-CONVECTION | VARIABLE MAGNETIC-FIELD | ENCLOSURE | ENGINEERING, MECHANICAL | BOLTZMANN METHOD SIMULATION | MECHANICS | THERMODYNAMICS | CUO-H2O NANOFLUID | SEMI-ANNULUS | THERMAL-RADIATION | NUMERICAL-SIMULATION
Journal Article
International Journal of Hydrogen Energy, ISSN 0360-3199, 06/2017, Volume 42, Issue 22, pp. 14942 - 14949
In this research, impact of magnetic field on CuO–H O nanofluid free convection inside a curved porous cavity is reported. Simulations have been done via... 
CuO–H | MHD | Mesoscopic approach | Curved porous cavity | LBM | O nanofluid | LORENTZ FORCES | ELECTROCHEMISTRY | NATURAL-CONVECTION | HEAT-TRANSFER | FORCED-CONVECTION | RECTANGULAR ENCLOSURE | ENERGY & FUELS | CHEMISTRY, PHYSICAL | CuO-H2O nanofluid | 2-PHASE MODEL | LATTICE BOLTZMANN METHOD | MAGNETIC-FIELD | THERMAL-RADIATION | NUMERICAL-SIMULATION
Journal Article
Journal of Molecular Liquids, ISSN 0167-7322, 05/2017, Volume 234, pp. 364 - 374
In this paper, magnetohydrodynamic nanofluid hydrothermal analysis in an open porous cavity is presented by means of Lattice Boltzmann method. Brownian motion... 
Porous media | MHD | Natural convection | Lattice Boltzmann method | Nanofluid | Open cavity | LORENTZ FORCES | EXISTENCE | NATURAL-CONVECTION | HEAT-TRANSFER ENHANCEMENT | FORCED-CONVECTION | VERTICAL PLATE | PHYSICS, ATOMIC, MOLECULAR & CHEMICAL | CHEMISTRY, PHYSICAL | JEFFREY FLUID | FLOW | NANOPARTICLES | THERMAL-RADIATION | Magnetic fields | Analysis | Methods
Journal Article
Journal of Molecular Liquids, ISSN 0167-7322, 08/2018, Volume 263, pp. 472 - 488
In this research, nanofluid flow in a three dimensional porous cavity under the impact of magnetic field is simulated by means of Lattice Boltzmann Method. The... 
Forced convection | Lattice Boltzmann Method | Sphere obstacle | Nanofluid | Porous medium | Lorentz forces | PHYSICS, ATOMIC, MOLECULAR & CHEMICAL | CHEMISTRY, PHYSICAL | MIXED CONVECTION | FLOW | FLAT-PLATE | NANOPARTICLES | FLUID | CHANNEL | SURFACE | DIFFUSION | MASS-TRANSFER | THERMAL-RADIATION
Journal Article
International Journal of Heat and Mass Transfer, ISSN 0017-9310, 03/2014, Volume 70, pp. 430 - 433
An analytical study is made of fully-developed laminar forced convection in a parallel-plate channel occupied by a nanofluid or by a porous medium saturated by... 
Forced convection | Nanofluid | Channel | Porous medium | MECHANICS | THERMODYNAMICS | ENGINEERING, MECHANICAL | Porous media | Nanocomposites | Mathematical analysis | Convection modes | Nanofluids | Nanomaterials | Nanostructure | Channels
Journal Article
Journal of Thermal Analysis and Calorimetry, ISSN 1388-6150, 01/2019, Volume 135, Issue 2, pp. 1171 - 1184
Journal Article
International Journal of Heat and Mass Transfer, ISSN 0017-9310, 11/2014, Volume 78, pp. 1080 - 1094
Journal Article
Applied Thermal Engineering, ISSN 1359-4311, 06/2016, Volume 103, pp. 459 - 480
•Analytical solutions for the temperature fields, Nusselt number and entropy generation.•Porous-nanofluid interface model dominates the system behaviour at low... 
Local thermal non-equilibrium | Forced convection in porous media | Internal heat sources | Nanofluid | Entropy generation | ENERGY & FUELS | MHD | FLOW | ENGINEERING, MECHANICAL | TRANSPORT | MECHANICS | THERMODYNAMICS | MEDIA | Heat generation | Forced convection | Fluid flow | Mathematical models | Nanostructure | Entropy | Channels | Heat transfer
Journal Article