Effect of partial slip boundary condition on the flow and heat transfer of nanofluids past stretching sheet prescribed constant wall temperature A Noghrehabadi, R Pourrajab, M Ghalambaz International Journal of Thermal Sciences 54, 253-261, 2012 | 351 | 2012 |
Natural convective flow and heat transfer of nano-encapsulated phase change materials (NEPCMs) in a cavity M Ghalambaz, AJ Chamkha, D Wen International journal of heat and mass transfer 138, 738-749, 2019 | 349 | 2019 |
Conjugate natural convection flow of Ag–MgO/water hybrid nanofluid in a square cavity M Ghalambaz, A Doostani, E Izadpanahi, AJ Chamkha Journal of Thermal Analysis and Calorimetry 139 (3), 2321-2336, 2020 | 321 | 2020 |
Free convection of hybrid Al2O3-Cu water nanofluid in a differentially heated porous cavity SAM Mehryan, FM Kashkooli, M Ghalambaz, AJ Chamkha Advanced Powder Technology 28 (9), 2295-2305, 2017 | 253 | 2017 |
Mixed convection flow caused by an oscillating cylinder in a square cavity filled with Cu–Al2O3/water hybrid nanofluid SAM Mehryan, E Izadpanahi, M Ghalambaz, AJ Chamkha Journal of Thermal Analysis and Calorimetry 137 (3), 965-982, 2019 | 243 | 2019 |
Free convection heat transfer analysis of a suspension of nano–encapsulated phase change materials (NEPCMs) in an inclined porous cavity M Ghalambaz, SAM Mehryan, I Zahmatkesh, A Chamkha International Journal of Thermal Sciences 157, 106503, 2020 | 199 | 2020 |
Phase-change heat transfer of single/hybrid nanoparticles-enhanced phase-change materials over a heated horizontal cylinder confined in a square cavity AJ Chamkha, A Doostanidezfuli, E Izadpanahi, M Ghalambaz Advanced Powder Technology 28 (2), 385-397, 2017 | 196 | 2017 |
Theoretical analysis of natural convection boundary layer heat and mass transfer of nanofluids: effects of size, shape and type of nanoparticles, type of base fluid and working … A Zaraki, M Ghalambaz, AJ Chamkha, M Ghalambaz, D De Rossi Advanced Powder Technology 26 (3), 935-946, 2015 | 190 | 2015 |
Numerical study on natural convection of Ag–MgO hybrid/water nanofluid inside a porous enclosure: A local thermal non-equilibrium model SAM Mehryan, M Ghalambaz, AJ Chamkha, M Izadi Powder Technology 367, 443-455, 2020 | 187 | 2020 |
Effects of heat sink and source and entropy generation on MHD mixed convection of a Cu-water nanofluid in a lid-driven square porous enclosure with partial slip AJ Chamkha, AM Rashad, MA Mansour, T Armaghani, M Ghalambaz Physics of Fluids 29 (5), 2017 | 184 | 2017 |
Phase-change heat transfer in a cavity heated from below: the effect of utilizing single or hybrid nanoparticles as additives M Ghalambaz, A Doostani, E Izadpanahi, AJ Chamkha Journal of the Taiwan Institute of Chemical Engineers 72, 104-115, 2017 | 180 | 2017 |
Fluid-structure interaction study of natural convection heat transfer over a flexible oscillating fin in a square cavity M Ghalambaz, E Jamesahar, MA Ismael, AJ Chamkha International Journal of Thermal Sciences 111, 256-273, 2017 | 176 | 2017 |
Conjugate solid-liquid phase change heat transfer in heatsink filled with phase change material-metal foam M Ghalambaz, J Zhang International Journal of Heat and Mass Transfer 146, 118832, 2020 | 166 | 2020 |
Analysis of melting behavior of PCMs in a cavity subject to a non-uniform magnetic field using a moving grid technique M Ghalambaz, SMH Zadeh, SAM Mehryan, I Pop, D Wen Applied Mathematical Modelling 77, 1936-1953, 2020 | 164 | 2020 |
Melting of nanoparticles-enhanced phase-change materials in an enclosure: effect of hybrid nanoparticles M Ghalambaz, A Doostani, AJ Chamkha, MA Ismael International Journal of Mechanical Sciences 134, 85-97, 2017 | 164 | 2017 |
Natural convection flow of a suspension containing nano-encapsulated phase change particles in an eccentric annulus SAM Mehryan, M Ghalambaz, LS Gargari, A Hajjar, M Sheremet Journal of Energy Storage 28, 101236, 2020 | 162 | 2020 |
Forced convection heat transfer of Nano-Encapsulated Phase Change Material (NEPCM) suspension in a mini-channel heatsink CJ Ho, YC Liu, M Ghalambaz, WM Yan International Journal of Heat and Mass Transfer 155, 119858, 2020 | 161 | 2020 |
Effects of nanoparticles diameter and concentration on natural convection of the Al2O3–water nanofluids considering variable thermal conductivity around a vertical cone in … M Ghalambaz, A Behseresht, J Behseresht, A Chamkha Advanced Powder Technology 26 (1), 224-235, 2015 | 160 | 2015 |
Entropy analysis for nanofluid flow over a stretching sheet in the presence of heat generation/absorption and partial slip A Noghrehabadi, MR Saffarian, R Pourrajab, M Ghalambaz Journal of Mechanical Science and Technology 27, 927-937, 2013 | 158 | 2013 |
Time periodic natural convection heat transfer in a nano-encapsulated phase-change suspension A Hajjar, SAM Mehryan, M Ghalambaz International Journal of Mechanical Sciences 166, 105243, 2020 | 155 | 2020 |