Dr. Masoud Haghshenasfard

Associate Professor
Department of Chemical Engineering, Isfahan University of Technology, Isfahan, Iran

Highest Degree
Ph.D. in Chemical Engineering from University of Sistan and Baluchestan, Iran

My URL
https://livedna.org/98.11599

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Biography

Masoud Haghshenasfard is an Associate Professor at Isfahan University of Technology, Department of Chemical Engineering. Dr. Haghshenasfard has over 50 scientific papers and projects either presented or published. He currently serves as an Editorial Board member for the Journal of Encapsulation and Adsorption Sciences. Dr. Haghshenasfard is an internationally recognized expert in many fields of chemical engineering including Computational Fluid Dynamics (CFD), Gas conversion (GTO-GTL), Heat and mass transfer in Nanofluids, Multiphase fluid flow, Flow through Porous Media

Area of Interest:

Physical Science Engineering
Gas Conversion
Heat Transfer
Nanofluids
Computational Fluid Dynamics

Selected Publications

  1. Dareh, F.R., M. Haghshenasfard, M.N. Esfahany and H.R.S. Jazi, 2019. An experimental investigation of pool boiling characteristics of alumina-water nanofluid over micro-/nanostructured surfaces. Heat Transfer Eng., 40: 1691-1708.
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  2. Lenji, M.A., M. Haghshenasfard, M.V. Sefti, M.B. Salehi and A.M. Moghadam, 2018. Numerical modeling and experimental investigation of inorganic and organic crosslinkers effects on polymer gel properties. J. Pet. Sci. Eng., 160: 160-169.
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  3. Lenji, M.A., M. Haghshenasfard, M.V. Sefti, M.B. Salehi and A. Heidari, 2018. Experimental study of swelling and rheological behavior of preformed particle gel used in water shutoff treatment. J. Pet. Sci. Eng., 169: 739-747.
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  4. Karimi, F., M. Haghshenasfard, R. Sotudeh-Gharebagh, R. Zarghami and N. Mostoufi, 2018. Enhancing the fluidization quality of nanoparticles using external fields. Adv. Powder Technol., 29: 3145-3154.
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  5. Dareh, F.R., M. Haghshenasfard, M.N. Esfahany and H.S. Jazi, 2018. Experimental investigation of time and repeated cycles in nucleate pool boiling of alumina/water nanofluid on polished and machined surfaces. Heat Mass Transfer, 54: 1653-1668.
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  6. Ansaripour, M., M. Haghshenasfard and A. Moheb, 2018. Experimental and numerical investigation of CO2 absorption using nanofluids in a hollow-fiber membrane contactor. Chem. Eng. Technol., 41: 367-378.
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  7. Alvarez, J., B. Hooshdaran, M. Cortazar, M. Amutio and G. Lopez et al., 2018. Valorization of citrus wastes by fast pyrolysis in a conical spouted bed reactor. Fuel, 224: 111-120.
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  8. Hooshdaran, B., S.H. Hosseini, M. Haghshenasfard, M.N. Esfahany and M. Olazar, 2017. CFD modeling of heat transfer and hydrodynamics in a draft tube conical spouted bed reactor under pyrolysis conditions: Impact of wall boundary condition. Appl. Therm. Eng., 127: 224-232.
    CrossRef  |  Direct Link  |  

  9. Sadeghy, R., M. Haghshenasfard, S.G. Etemad and E. Keshavarzi, 2016. Investigation of alumina nanofluid stability using experimental and modified population balance methods. Adv. Powder Technol., 27: 2186-2195.
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  10. Sadeghi, R., M. Haghshenasfard, S.G. Etemad and E. Keshavarzi, 2016. Theoretical investigation of nanoparticles aggregation effect on Water-alumina laminar convective heat transfer. Int. Commun. Heat Mass Transfer, 72: 57-63.
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  11. Rezaei, H., M. Haghshenasfard and A. Moheb, 2016. Optimization of dye adsorption using Fe3O4 nanoparticles encapsulated with alginate beads by taguchi method. Adsorpt. Sci. Technol., 35: 55-71.
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  12. Salimi, J., M. Haghshenasfard and S.G. Etemad, 2015. CO2 absorption in nanofluids in a randomly packed column equipped with magnetic field. Heat Mass Transfer, 51: 621-629.
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  13. Sadeghi, R., S.G. Etemad, E. Keshavarzi and M. Haghshenasfard, 2015. Investigation of alumina nanofluid stability by UV-vis spectrum. Microfluid. Nanofluid., 18: 1023-1030.
    CrossRef  |  Direct Link  |  

  14. Haghshenasfard, M., G.H. Yeoh, M. Dahari and K. Hooman, 2015. On Numerical Study of Calcium Sulphate Fouling under Subcooled Flow Boiling Conditions. Appl. Therm. Eng., 81: 18-27.
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  15. Haghshenasfard, M. and K. Hooman, 2015. CFD Modeling of Asphaltene Deposition Rate from Crude Oil. J. Pet. Sci. Eng., 128: 24-32.
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  16. Samadi, Z., M. Haghshenasfard and A. Moheb, 2014. CO2 Absorption Using Nanofluids in a Wetted-Wall Column with External Magnetic Field. Chem. Eng. Technol., 37: 462-470.
    CrossRef  |  Direct Link  |  

  17. Ekramian, E., S.G. Etemad and M. Haghshenasfard, 2014. Numerical Investigations of Heat Transfer Performance of Nanofluids in a Flat Plate Solar Collector. Int. J. Theoritical Appl. Nanotechnol., 2: 30-39.
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  18. Ekramian, E., S.G. Etemad and M. Haghshenasfard, 2014. Numerical Analysis of Heat Transfer Performance of Flat Plate Solar Collectors. J. Fluid Flow Heat Mass Transfer, 1: 38-42.
    CrossRef  |  Direct Link  |  

  19. Asmaie, L., M. Haghshenasfard, A.M. Zeinabad and M.N. Esfahany, 2013. Thermal performance analysis of nanofluids in a thermosyphon heat pipe using CFD modeling. Heat Mass Transfer, 49: 667-678.
    CrossRef  |  Direct Link  |  

  20. Akhtari, M., M. Haghshenasfard and M.R. Talaie, 2013. Numerical and Experimental Investigation of Heat Transfer of AL2O3/Water Nanofluid in the Double Pipe and Shell and Tube Heat Exchangers. Numer. Heat Transfer, 63: 941-958.
    CrossRef  |  Direct Link  |  

  21. Masoud, H.F., T.M. Reza and N. Somaye, 2011. Numerical and experimental investigation of heat transfer of ZnO/Water nanofluid in the concentric tube and plate heat exchangers. Therma. Sci. J., 15: 183-194.
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  22. Vakili, M.H. and M. Haghshenasfard, 2010. Chemical Recycling of Poly Ethylene Terephthalate Wastes. World Appl. Sci. J., 8: 839-846.

  23. Fard, M.H., M.N. Esfahany and M.R. Talaie, 2010. Numerical study of convective heat transfer of nanofluids in a circular tube, Two-phase model versus single-phase model. Int. Communi. Heat Mass Transfer, 37: 91-97.
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  24. Fard, M.H., K. Hooman AND H.T. Chua, 2010. Numerical simulation of a supercritical CO2 geothermosiphon. Int. Communi. Heat Mass Transfer, 37: 1447-1451.
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  25. Fard, M.H., 2010. CFD modeling of heat transfer of CO2 at supercritical pressures flowing vertically in porous tubes. Int. Communi. Heat Mass Transfer, 37: 98-102.
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  26. Fard, H.M., M. Zivdar, R. Rahimi and N.M. Esfahany, 2009. Numerical Simulation of Hydrodynamics parameters of the Packed Columns: Effects of Geometrical Characteristics on Pressure Drop. World Appl. Sci. J., 7: 1439-1445.

  27. Fard, M.H., M. Zivdar, R. Rahimi, M.N. Esfahani, A. Afacan, K. Nandakumar and K.T. Chuang, 2007. CFD Simulation of Mass Transfer Efficiency and Pressure Drop in a Structured Packed Distillation Column. Chem. Eng. Technol., 30: 854-861.
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  28. Fard, M.H., M. Zivdar, R. Rahimi and M.N. Esfahany, 2007. CFD simulation of Gas distribution Performance of Gas Inlet systems in packed columns. Chem. Eng. Technol., 30: 1176-1180.
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  29. Zivdar, M., R. Rahimi, M. Nasr and M.H. Fard, 2005. CFD simulations of Pressure drop in KATAPAK-S structured packing. Iran. J. Chem. Eng., 2: 64-71.
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Member since March, 2016