References
- Nandy P, Iskandar F N. Application of nanofluid to a heat pipe liquidblock and the thermoelectric cooling of electronic equipment. Exp Therm Fluid Sci. 2011; 5:1274–1281.
- Sohel MR, Saidur R, Mohd S M, Ijam A. Investigating the heat transfer performance and thermophysical properties of nanofluid in a circular micro-channel. Int Commun Heat Mass Transf. 2013; 42:75–81.
- Heris SZ, Esfahany MN, Etemad SG. Experimental investigation of convective heat transfer of AL2O3/H2O nanofluid in circular tube. Int J Heat Fluid Flow. 2007; 28:203–10.
- Ahmed S E, Mansour M A, Hussein, A K and Sivasankaran S. Mixed convection from a discrete heat source. Engineering Science and Technology, an International Journal, 2016; 19: 364-376.
- Teamah MA, Sorour M M, El-Maghlany W M and Afifi A. Numerical simulation of double diffusive laminar mixed convection. Alexandria Engineering Journal. 2013; 52: 227-239.
- Garoosi F, Rohani B, Rashidi MM. Two-phase mixture modeling of mixed convection of nanofuids in a square cavity. Powder Technology. (2015), 275: 304–321.
- Mirmasoumi S, Behzadmehr A. Effect of nanoparticles mean diameter on mixed convection heat transfer of a nanofluid in a horizontal tube. Int. J. Heat Fluid. 2008; 29: 557–56.
- Raisi A, Aminossadati S M and Ghasemi B. Magnetohydrodynamic mixed convection of a cu-water nanofluid in a vertical channel. Journal of Heat Transfer. 2013; 135.
- Akbari M, Behzadmehr A and Shahraki F. Fully developed mixed convection in horizontal and inclined tubes with uniform heat flux using Nanofluid. International Journal of Heat and Fluid Flow. 2008; 29: 545-556.
- Ali MM, Alim MA, Ahmed SS. Oriented magnetic field effect on mixed convective flow of nanofluid in a grooved channel with internal rotating cylindrical heat source. International Journal of Mechanical Sciences. 2019; 151: 385–409.
- Ali MM, Alim MA, Ahmed SS, et al. Magneto hydrodynamic mixed convection flow in a hexagonal enclosure. Procedia engineering. 2017;(194):479–486.
- Kefayati G R. Magnetic field effect on heat and mass transfer of mixed convection of shear-thinning fluids in a lid-driven enclosure with non-uniform boundary conditions. Journal of the Taiwan Institute of Chemical Engineers. 2015; 51: 20-33.
- Akram B, Ullah N, Nadeem S, Eldin SM. Simulations for MHD mixed convection in a partially heated lid-driven chamfered enclosure. Nu-meri. Heat. Transf. A Appl. 2023: 1–21,
- Maya U M, Alam Md N, Refaie Ali A. Influence of magnetic field on MHD mixed convection in lid-driven cavity with heated wavy bottom surface. Sci. Rep. 2023;13 (1):18959.
- Mliki B, Abbassi MA and Ridha D. CUO–water MHD Mixed Convection Analysis and Entropy Generation Minimisation In Double-Lid– Driven U-Shaped Enclosure with Discrete Heating. Acta Mechanicaet Automatica. 2023; 17(1): 112-123.
- Mliki B and Abbassi MA. LBM Analysis of Magneto-Hydrodynamic Mixed Convection of Nanoliquid in a Double Lid Driven Heated Incinerator Shaped Cavity with Discrete Heating. Mathematical Modelling of Fluid Dynamics and Nanofluids. 2023: 264–282
- Mliki B and Abbassi MA. Simulation of Magnetic Hybrid Nanofluid (Al2O3-Cu/H2O) Effect on Natural Convection and Entropy Generation in a Square Enclosure with a Hot Obstacle. Mathematical Modelling of Fluid Dynamics and Nanofluids. 2023: 511–525
- Mliki B, Abbassi MA, Omri A and Belkacem Z. Lattice Boltzmann analysis of MHD natural convection of CuO-water nanofluid in inclined C-shaped enclosures under the effect of nanoparticles Brownian motion. Powder Technology. 2017; 308: 70–83.
- Mliki, B., Abbassi, M. A., Omri, A. Lattice Boltzmann Simulation of Magnethydrodynamics Natural Convection in an L-Shaped Enclosure. International Journal of Heat And Technology. 2016; 34 (4).
- Prosenjit D, Mohammad AH. Predicting MHD mixed convection in a semicircular cavity with hybrid nanofluids using AI. Heliyon. 2024; 10:38303.
- Falah A, Zainab K, Ali K, Raad Z, Hayder I. MHD mixed convection of nanofluid flow Ag-Mgo/water in a channel contain a rotational cylinder. International Journal of Thermofluids. 2024; 22: 100713.
- Mliki B, Abbassi, MA. Analysis of Natural Convection Under the Effect of Nanoparticles Brownian Motion and a Periodic Magnetic Field Utilizing CuO–Water Nanofluid. J. Nanofluids. 2024; 13:1123–1133.
- Ighris Y, Qaffou M, Baliti J, Elguennouni Y, Hssikou M, Thermal management optimization of natural convection in a triangular chamber: Role of heating positions and ternary hybrid Nanofluid. Physics of Fluids. 2024; 36: 092002.
- Ighris Y, BouhouchiY, Baliti J, Hssikou M, Boumezzough A. Numerical study of natural convection in an inclined cavity filled with Al2O3/Cu-H2O nanofluids. Numerical Heat Transfer, Part A: Applications. 2024: 1-25. https://doi.org/10.1080/10407782.2024.2314230
- Thilagavathi A, Prasad V R. Thermal Heat Transfer Enhancement Analysis of Magnetic Ternary Hybrid Nanofluid in a Hexagonal Cavity with Square Obstacle. J. Appl. Comput. Mech. 2025; 11(1): 239-252.
- Dipak K M, Nirmalendu B, Nirmal K. M, Rama Subba R G, Chamkha Ali J. Hybrid nanofluid magnetohydrodynamic mixed convection in a novel W-shaped porous system. International Journal of Numerical Methods for Heat & Fluid. 2022; 33(10).
- Dipak K M. Nirmalendu B. Nirmal K M, Rama Subba R G, Chamkha Ali J. Role of surface undulation during mixed bioconvective nanofluid flow in porous media in presence of oxytactic bacteria and magnetic fields. International Journal of Mechanical Sciences. 2021; 211: 106778.
- Mohammed A A, Khaled A F, Qusay H. Al-Salami, Ali I R, Biswas N, Mohamed H, Faris A. Numerical analysis to investigate the effect of a porous block on MHD mixed convection in a split lid-driven cavity with Nanofluid. International Journal of Thermofluids. 2024; 22: 100621.
- Aniket H, Arabdha B, Biswas N, Nirmal K Manna, Dipak K M. MHD nanofluidic mixed convection and entropy generation in a butterflyshaped cavity. Sådhanå. 2024; 49:80.
- Mliki B, Abbassi MA, Omri A. Lattice Boltzmann Simulation of MHD Double Dispersion Natural Convection in a C-shaped Enclosure in the Presence of a Nanofluid. Fluid Dynamic and Material Processing. 2015; 11(1): 87-114.
- Mliki B, Abbassi MA, Omri A and Belkacem Z. Effects of nanoparticles Brownian motion in a linearly/sinusoidally heated cavity with MHD natural convection in the presence of uniform heat genera-tion/absorption. Powder Technol. 2016; 295: 69–83.
- Maxwell J C. A treatise on electricity and magnetism. Oxford University. Press Cambridge. UK. 1873; 2.
- Bhatnagar PL, Gross EP and Krook M. A model for collision processes in gases, I: small amplitude processes in charged and neutral one-component systems. Physical Review. 1954; 94 (3): 511.
- Lai FH, Yang YT. Lattice Boltzmann simulation of natural convection heat transfer of Al2O3/Water nanofluids in a square enclosure. Int J of Therm Sci. 2011; 50: 1930-1941.
- Ghasemi B, Aminossadati SM, Raisi A. Magnetic field effect on natural convection in a nanofluid-filled square enclosure. Int J Therm Sci. 2011; 50:1748–1756.
- Talebi F, Mahmoudi A H and Shahi M. Numerical study of mixed convection flows in a square lid-driven cavity utilizing Nanofluid. International Communications in Heat and Mass Transfer. 2010; 37: 79–90.