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دکتر محمد گوهرخواه
مرتبه علمی :دانشیار
تخصص : مهندسی مکانیک- تبدیل انرژی
زمینه های تحقیقاتی : انتقال حرارت تجربی و عددی انتقال حرارت چند فازی میکرو و نانوسیالات مواد متخلخل روش های اندازه گیری اپتیکی
مراکز تحقیقاتی :مرکز تحقیقات انرژی های کاربردی

پست الکترونیکی: goharkhah@sut.ac.ir
شماره تلفن: 8449 345 413 98+
شماره فکس: 4309 344 413 98+
رزومه:

محمد گوهرخواه
مرتبه علمی: دانشیار
عضو هیات علمی دانشکده مکانیک- دانشگاه صنعتی سهند تبریز
شهر سهند- تبریز- ايران

تحصيلات

دانشگاه تهران، دکتري مهندسي مکانيک، تبديل انرژی 93-88

دانشگاه تهران، کارشناسي ارشد مهندسي مکانيک، تبديل انرژی 87-85                                                                     

دانشگاه تهران، کارشناسي مهندسي مکانيک، تبديل انرژی 85-81                                

تاليفات و مقالات

مجلات علمی پژوهشی
 
1.           Soltani A, Vahidi Bajestani A, Goharkhah M. Poin to Point Control of a Liquid Carrying Quadrotor. Amirkabir Journal of Mechanical Engineering. 2022;54(4):1-.
2.           Saadatmand A, Goharkhah M, Nejad AM. Heat transfer enhancement in mini channel heat sinks utilizing corona wind: A numerical study. International Journal of Heat and Mass Transfer. 2022;182:121970.
3.           Mahmoodpour M, Goharkhah M, Ashjaee M, Najafi M. A three dimensional numerical investigation on trajectories and capture of magnetic drug carrier nanoparticles in a Y-shaped vessel. Journal of Drug Delivery Science and Technology. 2021;61:102207.
4.           Jafari H, Goharkhah M, Nejad AM. A comparative analysis on the single-phase and two-phase mixture models for calculation of ferrofluid convective heat transfer in the presence of a magnetic field: a numerical study. International Journal of Numerical Methods for Heat & Fluid Flow. 2021.
5.           Hosseinizadeh SE, Majidi S, Goharkhah M, Jahangiri A. Energy and exergy analysis of ferrofluid flow in a triple tube heat exchanger under the influence of an external magnetic field. Thermal Science and Engineering Progress. 2021;25:101019.
6.           Naghibzadeh SM, Goharkhah M, Sharifpur M, Meyer JP. Effects of interphase momentum exchange models on simulation of subcooled flow boiling. International Communications in Heat and Mass Transfer. 2020;118:104863.
7.           Mahmoodpour M, Goharkhah M, Ashjaee M. Investigation on trajectories and capture of magnetic drug carrier nanoparticles after injection into a direct vessel. Journal of Magnetism and Magnetic Materials. 2020;497:166065.
8.           Jedari Ghourichaei M, Goharkhah M, Razmara N. Thermal conductivity calculation of magnetite using molecular dynamics simulation. Energy Equipment and Systems. 2020;8(1):45-54.
9.           Jafari H, Goharkhah M. Application of electromagnets for forced convective heat transfer enhancement of magnetic fluids. International Journal of Thermal Sciences. 2020;157:106495.
10.        Goharkhah M, Bezaatpour M, Javar D. A comparative investigation on the accuracy of magnetic force models in ferrohydrodynamics. Powder Technology. 2020;360:1143-56.
11.        Bezaatpour M, Goharkhah M. A magnetic vortex generator for simultaneous heat transfer enhancement and pressure drop reduction in a mini channel. Hear transfer-Asian research. 2020;49(3):1192-213.
12.        Bezaatpour M, Goharkhah M. Convective heat transfer enhancement in a double pipe mini heat exchanger by magnetic field induced swirling flow. Applied Thermal Engineering. 2020;167:114801.
13.        Goharkhah M, Gharehkhani S, Fallah S, Ashjaee M. Dynamic measurement of ferrofluid thermal conductivity under an external magnetic field. Heat and Mass Transfer. 2019;55(6):1583-92.
14.        Bezaatpour M, Goharkhah M. A novel heat sink design for simultaneous heat transfer enhancement and pressure drop reduction utilizing porous fins and magnetite ferrofluid. International Journal of Numerical Methods for Heat & Fluid Flow. 2019.
15.        Bezaatpour M, Goharkhah M. Effect of magnetic field on the hydrodynamic and heat transfer of magnetite ferrofluid flow in a porous fin heat sink. Journal of Magnetism and Magnetic Materials. 2019;476:506-15.
16.        Bezaatpour M, Goharkhah M. Three dimensional simulation of hydrodynamic and heat transfer behavior of magnetite nanofluid flow in circular and rectangular channel heat sinks filled with porous media. Powder Technology. 2019;344:68-78.
17.        Goharkhah M, Esmaeili M, Ashjaee M. Numerical Simulation and Optimization of Forced Convection Heat Transfer of Magnetic Nanofluid in a Channel in the Presence of a Non-Uniform Magnetic Field. Journal of space science and technology. 2018.
18.        Goharkhah M, editor Application of Ferrofluid for Convective Heat Transfer Enhancement in Micro Gravity Conditions. 16th International Conference of Iranian Aerospace Society, Tehran; 2017.
19.        Goharkhah M, Ashjaee M, Shahabadi M. Experimental investigation on convective heat transfer and hydrodynamic characteristics of magnetite nanofluid under the influence of an alternating magnetic field. International Journal of Thermal Sciences. 2016;99:113-24.
20.        Karimi A, Goharkhah M, Ashjaee M, Shafii MB. Thermal Conductivity of $$\mathrm {Fe} _ {2}\mathrm {O} _ {3} $$ Fe 2 O 3 and $$\mathrm {Fe} _ {3}\mathrm {O} _ {4} $$ Fe 3 O 4 Magnetic Nanofluids Under the Influence of Magnetic Field. International Journal of Thermophysics. 2015;36(10):2720-39.
21.        Hanafizadeh P, Ashjaee M, Goharkhah M, Montazeri K, Akram M. The comparative study of single and two-phase models for magnetite nanofluid forced convection in a tube. International Communications in Heat and Mass Transfer. 2015;65:58-70.
22.        Goharkhah M, Salarian A, Ashjaee M, Shahabadi M. Convective heat transfer characteristics of magnetite nanofluid under the influence of constant and alternating magnetic field. Powder Technology. 2015;274:258-67.
23.        Goharkhah M, Ashjaee M, Jamali J. Experimental investigation on heat transfer and hydrodynamic behavior of magnetite nanofluid flow in a channel with recognition of the best models for transport properties. Experimental Thermal and Fluid Science. 2015;68:582-92.
24.        Ghasemian M, Ashrafi ZN, Goharkhah M, Ashjaee M. Heat transfer characteristics of Fe3O4 ferrofluid flowing in a mini channel under constant and alternating magnetic fields. Journal of Magnetism and Magnetic Materials. 2015;381:158-67.
25.        Ashjaee M, Goharkhah M, Khadem LA, Ahmadi R. Effect of magnetic field on the forced convection heat transfer and pressure drop of a magnetic nanofluid in a miniature heat sink. Heat and Mass Transfer. 2015;51(7):953-64.
26.        Minaei A, Ashjaee M, Goharkhah M. Experimental and numerical study of mixed and natural convection in an enclosure with a discrete heat source and ventilation ports. Heat transfer engineering. 2014;35(1):63-73.
27.        Goharkhah M, Ashjaee M. Effect of an alternating nonuniform magnetic field on ferrofluid flow and heat transfer in a channel. Journal of magnetism and magnetic materials. 2014;362:80-9.
28.        Ahmadi M, Avval MS, Yousefi T, Goharkhah M, Nasr B, Ashjaee M. Temperature measurement of a premixed radially symmetric methane flame jet using the Mach–Zehnder Interferometry. Optics and Lasers in Engineering. 2011;49(7):859-65.
29.        Ahmadi M, Avval MS, Yousefi T, Nasr B, Goharkhah M, editors. Temperature Measurement of Premixed Methane OEC Radially Symmetric Flame Jet Using Mach-Zehnder Interferometry. Engineering Systems Design and Analysis; 2010.
30.        Mokhtari A, Goharkhah M, Ashjaee M. Experimental study of natural convection heat transfer from an isothermal combined geometry (downward cone-cylinder). 2009.
31.        Goharkhah M, Ashjaee M, Madanipour K. Investigation of the accuracy of different methods of interferogram analysis for calculation of local free convection heat transfer coefficient on axisymmetric objects. Experimental thermal and fluid science. 2009;33(8):1188-96.
32.        Goharkhah M, Amiri S, Shokouhmand H. Effect of spatial variation of thermal conductivity on non-fourier heat conduction in a finite slab. Journal of mechanical science and technology. 2009;23(12):3393-8.
33.        Goharkhah M, Amiri S, Baghapour B, editors. Numerical Investigation for Determining Temperature Peaks in a Finite Slab With Volumetric Heat Generation Based on the Hyperbolic Model of Heat Conduction. International Conference on Nanochannels, Microchannels, and Minichannels; 2009.
34.        Shokouhmand H, Goharkhah M, Amiri S, editors. Analytical solution of hyperbolic heat conduction equation in a thin film layer with space-dependent thermal conductivity. 2008 Second International Conference on Thermal Issues in Emerging Technologies; 2008: IEEE.
  

  1. مقالات کنفرانس
  1. M.Goharkhah, "Application of ferrofluid for convective heat transfer enhancement in micro gravity conditions", Conference of Iranian Aerospace Society, 2017, Tehran, Iran.
  2. مجتبی بضاعت پور، محمد گوهرخواه،" مطالعه عددی انتقال حرارت جابجایی اجباری فروسیال در هیت سینک با فین های متخلخل"، سومین کنفرانس انتقال حرارت و جرم ايران، دانشگاه صنعتی نوشیروانی بابل، بابل ، ايران، 1 لغايت 2 آذر 1396
  3. داوود جاور، محمد گوهرخواه "مطالعۀ عددی انتقال حرارت جابجایی اجباری نانوسیال در مینیکانال تحت اثر میدان مغناطیسی  با مدلهای مختلف نیروی مغناطیسی" ، سومین کنفرانس انتقال حرارت و جرم ايران، دانشگاه صنعتی نوشیروانی بابل، بابل ، ايران، 1 لغايت 2 آذر 1396.
  4.  
  5. M.Goharkhah, M. Ashjaee, A.Mokhtari, "Effect of Vertex angle of Cone on Natural Convection Heat Transfer From a Combined geometry (Downward Cone- Cylinder)”. International conference on energy engineering, Jan 2009, India
  6. M. Goharkhah, S. Amiri, B. Baghapour, “Numerical Investigation for Determining Temperature Peaks In a Finite Slab with Volumetric Heat Generation based on the Hyperbolic Model of Heat Conduction”. Seventh International ASME Conference on Nanochannels, Microchannels and Minichannels. ICNMM2009. June 2009, Pohang, South Korea
  7. M. Ashjaee; M. Goharkhah; k. Madanipour, “Calculation of local heat transfer coefficient on axisymmetric geometries using different methods of fringe analysis”, Thermal Issues in Emerging Technologies, ThETA 2, Cairo, Dec  2008, Egypt.
  8. A.Mokhtari, M.Goharkhah, M.Ashjaee,” Experimental Study of Natural Convection Heat Transfer from an Isothermal Combined Geometry (Downward Cone- Cylinder)”, Fourth International Conference on Thermal Engineering: Theory and Applications Jan, 2009, Abu Dhabi, UAE
  9. H. Shokouhman, M. Goharkhah, S. Amiri, “ Analytical Solution of Hyperbolic Heat Conduction Equation in a Thin Film Layer with Space- Dependent Thermal Conductivity”, Thermal Issues in Emerging Technologies, ThETA 2, Cairo, Dec  2008, Egypt.
  10. M. Ashjaee, A.Minaei, M. Goharkhah. “Experimental Investigation of Mixe Convection Heat Transfer in an Enclosure with Ventilation Ports”  submitted to the ASME 2010 10th Biennial Conference on Engineering Systems Design and Analysis ESDA2010 July 12-14, 2010, Istanbul, Turkey
  11.  
  12. M. Ashjaee, S.Amiri, K.Habibi, M. Goharkhah. “Slot Jet Impingement Heat Transfer From an Isothermal Circular Cylinder”. Thermal Issues in Emerging Technologies, ThETA 2, Cairo, Dec  2008, Egypt.
  13. M. Ahmadi, M. Saffar Avval, T. Yousefi, B. Nasr, and Mohammad Goharkhah  “Temperature Measurement of premixed Methane OEC Radially Symmetric Flame jet Using Mach- Zehnder Interferometry”  ASME 2010 10th Biennial Conference on Engineering Systems Design and Analysis ESDA2010 July 12-14, 2010, Istanbul, Turkey
       
 
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تبریز، دانشگاه صنعتی سهند، دانشکده مهندسی مکانیک، صندوق پستی: 1996-51335 | تلفن دفتر دانشکده: 4310 3344 41 98+ | info.mech@sut.ac.ir