Experimental investigation of oxide nanofluids laminar flow convective heat transfer SZ Heris, SG Etemad, MN Esfahany International communications in heat and mass transfer 33 (4), 529-535, 2006 | 1261 | 2006 |
Experimental investigation of convective heat transfer of Al2O3/water nanofluid in circular tube SZ Heris, MN Esfahany, SG Etemad International journal of heat and fluid flow 28 (2), 203-210, 2007 | 1128 | 2007 |
Experimental study of turbulent convective heat transfer and pressure drop of dilute CuO/water nanofluid inside a circular tube SM Fotukian, MN Esfahany International communications in heat and mass transfer 37 (2), 214-219, 2010 | 442 | 2010 |
Numerical study of convective heat transfer of nanofluids in a circular tube two-phase model versus single-phase model MH Fard, MN Esfahany, MR Talaie International Communications in Heat and Mass Transfer 37 (1), 91-97, 2010 | 355 | 2010 |
Experimental investigation of turbulent convective heat transfer of dilute γ-Al2O3/water nanofluid inside a circular tube SM Fotukian, MN Esfahany International Journal of Heat and Fluid Flow 31 (4), 606-612, 2010 | 326 | 2010 |
Numerical investigation of nanofluid laminar convective heat transfer through a circular tube SZ Heris, MN Esfahany, G Etemad Numerical Heat Transfer, Part A: Applications 52 (11), 1043-1058, 2007 | 273 | 2007 |
Single chamber microbial fuel cell with spiral anode for dairy wastewater treatment MM Mardanpour, MN Esfahany, T Behzad, R Sedaqatvand Biosensors and Bioelectronics 38 (1), 264-269, 2012 | 185 | 2012 |
Mass transfer in nanofluids: A review SS Ashrafmansouri, MN Esfahany International Journal of Thermal Sciences 82, 84-99, 2014 | 172 | 2014 |
Convective heat transfer of a Cu/water nanofluid flowing through a circular tube SZ Heris, SG Etemad, MN Esfahany Experimental heat transfer 22 (4), 217-227, 2009 | 145 | 2009 |
Mass transfer between phases in microchannels: A review M Sattari-Najafabadi, MN Esfahany, Z Wu, B Sunden Chemical Engineering and Processing-Process Intensification 127, 213-237, 2018 | 143 | 2018 |
Mechanisms of smart waterflooding in carbonate oil reservoirs-A review J Hao, S Mohammadkhani, H Shahverdi, MN Esfahany, A Shapiro Journal of Petroleum Science and Engineering 179, 276-291, 2019 | 138 | 2019 |
Pool boiling characteristics of nanofluid on flat plate based on heater surface analysis Z Shahmoradi, N Etesami, MN Esfahany International Communications in Heat and Mass Transfer 47, 113-120, 2013 | 127 | 2013 |
Experimental investigation of pool boiling of Fe3O4/ethylene glycol–water nanofluid in electric field M Sheikhbahai, MN Esfahany, N Etesami International Journal of Thermal Sciences 62, 149-153, 2012 | 124 | 2012 |
Investigation of CuO/water nanofluid laminar convective heat transfer through a circular tube SZ Heris, MN Esfahany, G Etemad Journal of Enhanced Heat Transfer 13 (4), 2006 | 120 | 2006 |
CFD analysis of turbulence in a baffled stirred tank, a three-compartment model MH Vakili, MN Esfahany Chemical Engineering Science 64 (2), 351-362, 2009 | 119 | 2009 |
Investigation of nanofluids heat transfer in a ribbed microchannel heat sink using single-phase and multiphase CFD models ZY Ghale, M Haghshenasfard, MN Esfahany International Communications in Heat and Mass Transfer 68, 122-129, 2015 | 117 | 2015 |
CFD simulation of the structured packings: A review Y Amini, M Nasr Esfahany Separation science and technology 54 (15), 2536-2554, 2019 | 105 | 2019 |
Influence of orientation and roughness of heater surface on critical heat flux and pool boiling heat transfer coefficient of nanofluid M Dadjoo, N Etesami, MN Esfahany Applied Thermal Engineering 124, 353-361, 2017 | 90 | 2017 |
CFD studies of solids hold-up distribution and circulation patterns in gas–solid fluidized beds SH Hosseini, G Ahmadi, R Rahimi, M Zivdar, MN Esfahany Powder technology 200 (3), 202-215, 2010 | 86 | 2010 |
Experimental investigation of the effect of nanoparticle size on thermal conductivity of in-situ prepared silica–ethanol nanofluid MHK Darvanjooghi, MN Esfahany International Communications in Heat and Mass Transfer 77, 148-154, 2016 | 85 | 2016 |