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This site has been transferred: http://web.units.it/dottorato/esfm/

 

 

 

Cycle: 
29 cycle
Tutor: 
Prof Armenio
Curriculum, Annual Report, Thesis: 
Current Position: 

PhD Researcher at the ESFM of University of Trieste (UNITS)

Scientific Activity: 

Wall-resolved large eddy simulation (LES) of suspended sediment transport (SST) in lab scale

Wall-function LES of SST in lab scale

Phase change material (PCM)

Lattice Boltzmann method (LBM)

Investigation of velocities in suspended sediment-laden flows using UVP measurement (MET-FLOW S.A.)

Influence of lateral and bottom macro-rough flows on SST using experiments in EPFL 

 

 

 

Background: 

2004-2008 Bachelor of Science in Manufacturing Engineering, Iran University of Science and Technology-IUST, Arak, Iran, GPA: 15.25 / 20 Major Project: “Modeling and Finite Element Analysis of trains' shaft under static and dynamic loads”

2009-2012 Master of Science in Mechanical Engineering (Energy Conversion), Babol University of Technology, Babol, Iran, GPA: 17.18 / 20 Major Project: “Effect of Extended Surfaces on Melting Phenomena Using Lattice Boltzmann Method”

Publications: 

M. Jourabian, M. Farhadi, K. Sedighi, A.A. Rabienataj Darzi and Y. Vazifeshenas. Simulation of natural convection melting in a cavity with fin using lattice Boltzmann method, International Journal of Numerical Methods in Fluids, 70, 3, pp. 313–325, 2012.

M. Jourabian, M. Farhadi, K. Sedighi, A.A. Rabienataj Darzi and Y. Vazifeshenas. Melting of NEPCM within cylindrical tube: numerical study using lattice Boltzmann method, Numerical Heat Transfer: Part A, 61, 12, pp. 929-948, 2012.

M. Jourabian, A.A. Rabienataj Darzi and M. Farhadi. Lattice Boltzmann investigation for enhancing the thermal conductivity of ice using AL2O3 porous matrix, International Journal of Computational Fluid Dynamics, 26, 9-10, pp. 451-462, 2012.

A.A. Rabienataj Darzi, M. Farhadi, M. Jourabian and Y. Vazifeshenas. Natural convection melting of NEPCM in a cavity with an obstacle using lattice Boltzmann method, International Journal of Numerical Methods for Heat and Fluid Flow, 24, 1, 2014.

M. Jourabian, M. Farhadi and A.A. Rabienataj Darzi. Convection-dominated melting of phase change material in partially heated cavity: lattice Boltzmann study, Heat and Mass Transfer, 49, 4, pp. 555-565, 2013.

M. Jourabian, M. Farhadi, A.A. Rabienataj Darzi and A.A. Abouei. Lattice Boltzmann simulation of melting phenomenon with natural convection from an eccentric annulus, Thermal Science, 17, 3, pp. 877-890, 2013.

M. Jourabian, M. Farhadi and A.A. Rabienataj Darzi. Simulation of natural convection melting in an inclined cavity using lattice Boltzmann method, Scientia Iranica, 19, 4, pp. 1066-1073, 2012.

A.A. Rabienataj Darzi, M. Farhadi and M. Jourabian. Lattice Boltzmann simulation of heat transfer enhancement during melting by using nanoparticles, IJST, Transactions of Mechanical Engineering, 37, M1, pp. 23-37, 2013.

M. Jourabian, M. Farhadi and A.A. Rabienataj Darzi. Outward melting of ice enhanced by Cu nanoparticles inside cylindrical horizontal annulus: lattice Boltzmann approach, Applied Mathematical Modeling, 37, 20–21, pp. 8813–8825, 2013.

M. Jourabian, M. Farhadi, K. Sedighi and A.A. Rabienataj Darzi. On the expedited melting of phase change material (PCM) through dispersion of nanoparticles in thermal storage unit, Computers and Mathematics with Applications, 67, 7, pp. 1358-1372, 2013.

M. Jourabian, M. Farhadi, Melting of nanoparticles-enhanced phase change material (NEPCM) in vertical semicircle enclosure: numerical study, Journal of Mechanical Science and Technology, 29, 9, pp. 3819-3830, 2015.

A. Ali Rabienataj DarziM. Jourabian, M. Farhadi. Melting and solidification of PCM enhanced by radial conductive fins and nanoparticles in cylindrical annulus, Energy Conversion and Management 118, pp. 253–263, 2016.

M. Jourabian, M. Farhadi, A.A. Rabienataj Darzi. Heat transfer enhancement of PCM melting in 2D horizontal elliptical tube using metallic porous matrix,  Theoretical and Computational Fluid Dynamics 30, 6, pp. 579–603, 2016. 

M. Jourabian, M. Farhadi, AAR. Darzi. Accelerated melting of PCM in a multitube annulus-type thermal storage unit using lattice Boltzmann simulation. Heat Transfer Asian Research 2017;00:1–27. https://doi.org/10.1002/htj.21286

M. JourabianM. FarhadiA.A. Rabienataj Darzi, Constrained ice melting around one cylinder in horizontal cavity accelerated using three heat transfer enhancement techniques, International Journal of Thermal Sciences Volume 125, March 2018, Pages 231-247

 

Melting and solidification of PCM embedded in porous metal foam in horizontal multi-tube heat storage system, Energy Conversion and ManagemenVolume 171, 1 September 2018, Pages 398–410

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Conferences: 

A.A. Rabienataj Darzi, M. Farhadi, K. Sedighi, H. Hassanzadeh and M. Jourabian. Cooling of hot chip in rectangular channel using phase change materials as a heat sink, International Conference on Advanced Research and Applications in Mechanical Engineering 2011 (ICARAME' 11), Notre Dame university-Louaize, Lebanon, 13 -15 June 2011.

M. Jourabian, M. Farhadi, K. Sedighi and A.A. Rabienataj Darzi. Lattice Boltzmann simulation of melting process with natural convection in a cavity with fin, International Meeting on Advances in Thermofluids (4th IMAT), University Technology Malaysia (UTM), Malaysia, 3-4 October 2011.

M. Jourabian, V. Armenio, Large Eddy Simulation (LES) of Suspended Sediment Transport (SST) at a Laboratory ScaleThe 26th International Ocean and Polar Engineering Conference, 2016. 

M. Jourabian and and V. Armenio. Wall-layer model for large eddy simulation (LES) of suspended

sediment transport (SST) in a lab-scale turbulent open channel flow (Accepted), 13th International

Conference on Heat Transfer, Fluid Mechanics and Thermodynamics (HEFAT2017), Portoroz, Slovenia,

 

17-19 July 2017.