Abbas Abbassi
Abbas Abbassi
Professor, Mechanical Engineering Dept., Amirkabir University of Technology
Verified email at - Homepage
Cited by
Cited by
Eulerian–Eulerian two-phase numerical simulation of nanofluid laminar forced convection in a microchannel
M Kalteh, A Abbassi, M Saffar-Avval, J Harting
International journal of heat and fluid flow 32 (1), 107-116, 2011
Experimental and numerical investigation of nanofluid forced convection inside a wide microchannel heat sink
M Kalteh, A Abbassi, M Saffar-Avval, A Frijns, A Darhuber, J Harting
Applied Thermal Engineering 36, 260-268, 2012
A simulation model and parametric study of MED–TVC process
RK Kamali, A Abbassi, SAS Vanini
Desalination 235 (1-3), 340-351, 2009
Thermodynamic design and parametric study of MED-TVC
RK Kamali, A Abbassi, SAS Vanini, MS Avval
Desalination 222 (1-3), 596-604, 2008
Numerical simulation and experimental analysis of an industrial glass melting furnace
A Abbassi, K Khoshmanesh
Applied Thermal Engineering 28 (5-6), 450-459, 2008
Experimental and numerical investigation of nanofluid heat transfer in helically coiled tubes at constant wall temperature using dispersion model
F Akbaridoust, M Rakhsha, A Abbassi, M Saffar-Avval
International Journal of Heat and Mass Transfer 58 (1-2), 480-491, 2013
Application of neural network for the modeling and control of evaporative condenser cooling load
A Abbassi, L Bahar
Applied Thermal Engineering 25 (17-18), 3176-3186, 2005
Effect of boundary phonon scattering on Dual-Phase-Lag model to simulate micro-and nano-scale heat conduction
J Ghazanfarian, A Abbassi
International Journal of Heat and Mass Transfer 52 (15-16), 3706-3711, 2009
Experimental and numerical investigation of turbulent nanofluid flow in helically coiled tubes under constant wall heat flux using Eulerian–Lagrangian approach
H Bahremand, A Abbassi, M Saffar-Avval
Powder Technology 269, 93-100, 2015
Multi-objective optimization of nanofluid flow in flat tubes using CFD, Artificial Neural Networks and genetic algorithms
H Safikhani, A Abbassi, A Khalkhali, M Kalteh
Advanced Powder Technology 25 (5), 1608-1617, 2014
Optimization of conjugate heat transfer in wavy walls microchannels
J Rostami, A Abbassi, M Saffar-Avval
Applied Thermal Engineering 82, 318-328, 2015
Risk assessment in chemical process industries
FI Khan, SA Abbasi
Discovery Publishing House, 1998
Homotopy analysis method for mixed convective boundary layer flow of a nanofluid over a vertical circular cylinder
S Dinarvand, A Abbassi, R Hosseini, I Pop
Thermal science 19 (2), 549-561, 2015
Investigating the effect of Brownian motion and viscous dissipation on the nanofluid heat transfer in a trapezoidal microchannel heat sink
B Fani, M Kalteh, A Abbassi
Advanced Powder Technology 26 (1), 83-90, 2015
Three-dimensional thermal lattice Boltzmann simulation of natural convection in a cubic cavity
CS Nor Azwadi, T Tanahashi
International Journal of Modern Physics B 21 (01), 87-96, 2007
Ultrasonic properties of suspensions of TiO2 and Al2O3 nanoparticles in water
B Tajik, A Abbassi, M Saffar-Avval, MA Najafabadi
Powder technology 217, 171-176, 2012
Numerical modeling of mold filling and curing in non-isothermal RTM process
A Abbassi, MR Shahnazari
Applied thermal engineering 24 (16), 2453-2465, 2004
Experimental and numerical investigations of turbulent forced convection flow of nano-fluid in helical coiled tubes at constant surface temperature
M Rakhsha, F Akbaridoust, A Abbassi, SA Majid
Powder Technology 283, 178-189, 2015
Effect of nanoparticles size on thermal performance of nanofluid in a trapezoidal microchannel-heat-sink
B Fani, A Abbassi, M Kalteh
International Communications in Heat and Mass Transfer 45, 155-161, 2013
Effects of continuous sonication on laminar convective heat transfer inside a tube using water–TiO2 nanofluid
HR Rayatzadeh, M Saffar-Avval, M Mansourkiaei, A Abbassi
Experimental thermal and fluid science 48, 8-14, 2013
The system can't perform the operation now. Try again later.
Articles 1–20