Dr. Fateh Mebarek-Oudina
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Dr. Fateh Mebarek-Oudina

Full Professor
Skikda University, Algeria

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Biography

Prof. Dr. Fateh MEBAREK OUDINA worked as staff and process engineer at SONATRACH, Algeria and published more than 140 papers in international refereed journals and proceedings. Currently, he works at Skikda University in Algeria, and serves as a reviewer for more than 250 indexed international journals. He is ranked in Top 2% Scientists Worldwide (2020,2021,2022).

Area of Interest:

Physical Science Engineering
100%
Analytical and Computational Analysis of Heat Transfer
62%
Thermal Transfer
90%
Magneto Hydrodynamics
75%
Mechanical Engineering
55%

Research Publications in Numbers

Books
0
Chapters
0
Articles
0
Abstracts
0

Selected Publications

  1. Mebarek-Oudina, F. and I. Chabani, 2023. Review on Nano enhanced PCMs: Insight on nePCM application in thermal management/storage systems. Energies, Vol. 16. 10.3390/en16031066.
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  2. Dharmaiah, G., F. Mebarek-Oudina, M.S. Kumar and K.C. Kala, 2023. Nuclear reactor application on Jeffrey fluid flow with Falkner-skan factor, Brownian and thermophoresis, non linear thermal radiation impacts past a wedge. J. Indian Chem. Soc., Vol. 100. 10.1016/j.jics.2023.100907.
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  3. Warke, A.S., K. Ramesh, F. Mebarek-Oudina and A. Abidi, 2022. Numerical investigation of the stagnation point flow of radiative magnetomicropolar liquid past a heated porous stretching sheet. J. Therm. Anal. Calorim., 147: 6901-6912.
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  4. Vaidya, H., K.V. Prasad, M.I. Khan, F. Mebarek-Oudina and I. Tlili et al., 2022. Combined effects of chemical reaction and variable thermal conductivity on MHD peristaltic flow of Phan-Thien-Tanner liquid through inclined channel. Case Stud. Therm. Eng., Vol. 36. 10.1016/j.csite.2022.102214.
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  5. Vaidya, H., C. Rajashekhar, F. Mebarek-Oudina, K.V. Prasad, K. Vajravelu and B.R. Bhat, 2022. Examination of chemical reaction on three dimensional mixed convective Magnetohydrodynamic Jeffrey nanofluid over a stretching sheet. J. Nanofluids, 11: 113-124.
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  6. Swain, K., F. Mebarek-Oudina and S.M. Abo-Dahab, 2022. Influence of MWCNT/Fe3O4 hybrid nanoparticles on an exponentially porous shrinking sheet with chemical reaction and slip boundary conditions. J. Therm. Anal. Calorim., 147: 1561-1570.
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  7. Sharma, K., S. Kumar, A. Narwal, F. Mebarek-Oudina and I.L. Animasaun, 2022. Convective MHD fluid flow over stretchable rotating disks with Dufour and Soret effects. Int. J. Appl. Comput. Math, Vol. 8. 10.1007/s40819-022-01357-7.
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  8. Shafiq, A., F. Mebarek-Oudina, T.N. Sindhu and G. Rasool, 2022. Sensitivity analysis for Walters-B nanoliquid flow over a radiative riga surface by RSM. Int. J. Sci. Technol., 29: 1236-1249.
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  9. Reddy, Y.D., F. Mebarek-Oudina, B.S. Goud and A.I. Ismail, 2022. Radiation, velocity and thermal slips effect toward MHD boundary layer flow through heat and mass transport of Williamson Nanofluid with porous medium. Arab. J. Sci. Eng., 47: 16355-16369.
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  10. Raza, J., F. Mebarek-Oudina and L.A. Lund, 2022. The flow of magnetised convective Casson liquid via a porous channel with shrinking and stationary walls. Pramana - J. Phys., Vol. 96. 10.1007/s12043-022-02465-1.
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  11. Prasad, K.V., S.B. Setty, F. Mebarek‐Oudina, H. Vaidya, R. Choudhari and I.L. Animasaun, 2022. Mixed convective Williamson nanofluid flow over a rotating disk with zero mass flux. ZAMM-J. Appl. Math. Mech., Vol. 102. 10.1002/zamm.202100117.
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  12. Prasad, K.V., H. Vaidya, F.M. Oudina, K.M. Ramadan and M.I. Khan et al., 2022. Peristaltic activity in blood flow of Casson nanoliquid with irreversibility aspects in vertical non-uniform channel. J. Indian Chem. Soc., Vol. 99. 10.1016/j.jics.2022.100617.
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  13. Prasad, K.V., C. Rajashekhar, F. Mebarek-Oudina, I.L. Animasaun and O.D. Makinde et al., 2022. Unsteady magnetohydrodynamic convective flow of a nanoliquid via a radially stretched Riga area via optimal homotopy analysis method. J. Nanofluids, 11: 84-98.
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  14. Nyo, M.T., F. Mebarek-Oudina, S.S. Hlaing and N.A. Khan, 2022. Otsu’s thresholding technique for MRI image brain tumor segmentation. Multimed Tools Appl., 81: 43837-43849.
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  15. Mebarek-Oudina, F., H. Laouira, A.K. Hussein, M. Omri, A. Abderrahmane, L. Kolsi and U. Biswal, 2022. Mixed convection inside a duct with an open trapezoidal cavity equipped with two discrete heat sources and moving walls. Mathematics, Vol. 10. 10.3390/math10060929.
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  16. Mebarek-Oudina, F. and I. Chabani, 2022. Review on Nano-fluids applications and heat transfer enhancement techniques in different enclosures. J. Nanofluids, 11: 155-168.
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  17. Kemparaju, S., H.A.K. Swamy, M. Sankar and F. Mebarek-Oudina, 2022. Impact of thermal and solute source-sink combination on thermosolutal convection in a partially active porous annulus. Phys. Scr., Vol. 97. 10.1088/1402-4896/ac6383.
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  18. Jawad, M., F. Mebarek-Oudina, H. Vaidya and P. Prashar, 2022. Influence of bioconvection and thermal radiation on MHD Williamson Nano casson fluid flow with the swimming of gyrotactic microorganisms due to porous stretching sheet. J. Nanofluids, 11: 500-509.
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  19. Hassan, M., F. Mebarek-Oudina, A. Faisal, Abdul Ghafar and A.I. Ismail, 2022. Thermal energy and mass transport of shear thinning fluid under effects of low to high shear rate viscosity. Int. J. Thermofluids, Vol. 15. 10.1016/j.ijft.2022.100176.
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  20. Fares, R., F. Mebarek-Oudina, A. Aissa, S.M. Bilal and H.F. Öztop, 2022. Optimal entropy generation in Darcy-Forchheimer magnetized flow in a square enclosure filled with silver based water nanoliquid. J. Therm. Anal. Calorim., 147: 1571-1581.
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  21. Choudhari, R., O.D. Makinde, F. Mebarek‐Oudina, H. Vaidya, K.V. Prasad and P. Devaki, 2022. Analysis of third‐grade liquid under the influence of wall slip and variable fluid properties in an inclined peristaltic channel. Heat Trans., 51: 6528-6547.
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  22. Choudhari, R., F. Mebarek-Oudina, H.F. Öztop, H. Vaidya and K.V. Prasad, 2022. Electro-osmosis modulated peristaltic flow of non-Newtonian liquid via a microchannel and variable liquid properties. Indian J. Phys., 96: 3853-3866.
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  23. Chabani, I., F. Mebarek-Oudina, H. Vaidya and A.I. Ismail, 2022. Numerical analysis of magnetic hybrid Nano-fluid natural convective flow in an adjusted porous trapezoidal enclosure. J. Magn. Magn. Mater., Vol. 564. 10.1016/j.jmmm.2022.170142.
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  24. Chabani, I., F. Mebarek-Oudina and Abdel A.I. Ismail, 2022. MHD flow of a hybrid Nano-fluid in a triangular enclosure with zigzags and an elliptic obstacle. Micromachines, Vol. 13. 10.3390/mi13020224.
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  25. Asogwa, K.K., F. Mebarek-Oudina and I.L. Animasaun, 2022. Comparative investigation of water-based Al2O3 nanoparticles through water-based CuO nanoparticles over an exponentially accelerated radiative Riga plate surface via heat transport. Arabian J. Sci. Eng., 47: 8721-8738.
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  26. Ahmad, S., S. Mehfuz, F. Mebarek-Oudina and J. Beg, 2022. RSM analysis based cloud access security broker: A systematic literature review. Cluster Comput., 25: 3733-3763.
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  27. Abdulsahib, A.D., A.S. Hashim, K. Al-Farhany, A. Abdulkadhim and F. Mebarek-Oudina, 2022. Natural convection investigation under influence of internal bodies within a nanofluid-filled square cavity. Eur. Phys. J. Spec. Top., 231: 2605-2621.
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  28. Zaydan, M., M. Riahi, F. Mebarek-Oudina and R. Sehaqui, 2021. Mixed convection in a two-sided lid-driven square cavity filled with different types of nanoparticles: A comparative study assuming nanoparticles with different shapes. Fluid Dyn. Mater. Process., 17: 789-819.
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  29. Vaidya, H., R. Choudhari, F. Mebarek‐Oudina, I.L. Animasaun, K.V. Prasad and O.D. Makinde, 2021. Combined effects of homogeneous and heterogeneous reactions on peristalsis of ree-eyring liquid: Application in hemodynamic flow. Heat Trans., 50: 2592-2609.
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  30. Vaidya, H., C. Rajashekhar, K.V. Prasad, S.U. Khan, F. Mebarek-Oudina, A. Patil and P. Nagathan, 2021. Channel flow of MHD bingham fluid due to peristalsis with multiple chemical reactions: An application to blood flow through narrow arteries. SN Appl. Sci., Vol. 3. 10.1007/s42452-021-04143-0.
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  31. Souad Marzougui, M. Bouabid, Fateh Mebarek-Oudina, Nidal Abu-Hamdeh, Mourad Magherbi, K. Ramesh 2021. A computational analysis of heat transport irreversibility phenomenon in a magnetized porous channel Int. J. Numer. Methods Heat Fluid Flow, 31: 2197-2222.
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  32. Shafiq, A., F. Mebarek-Oudina, T.N. Sindhu and A. Abidi, 2021. A study of dual stratification on stagnation point Walters' B nanofluid flow via radiative Riga plate: a statistical approach. Eur. Phys. J. Plus, Vol. 136. 10.1140/epjp/s13360-021-01394-z.
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  33. Rajashekhar, C., F. Mebarek‐Oudina, H. Vaidya, K.V. Prasad, G. Manjunatha and H. Balachandra, 2021. Mass and heat transport impact on the peristaltic flow of a Ree–Eyring liquid through variable properties for hemodynamic flow. Heat Transfer, 50: 5106-5122.
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  34. Rajashekhar, C., F. Mebarek-Oudina, I.E. Sarris, H. Vaidya, K.V. Prasad, G. Manjunatha and H. Balachandra, 2021. Impact of electroosmosis and wall properties in modelling peristaltic mechanism of a Jeffrey liquid through a microchannel with variable fluid properties. Inventions, Vol. 6. 10.3390/inventions6040073.
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  35. Pushpa, B.V., M. Sankar and F. Mebarek-Oudina 2021. Buoyant convective flow and heat dissipation of Cu–H2O nanoliquids in an annulus through a thin baffle. J. Nanofluids, 10: 292-304.
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  36. Preeti, O.O., P.K. Kambhatla and F. Mebarek-Oudina, 2021. Shape effect of MoS2 nanoparticles on entropy generation and heat transport in viscoelastic boundary layer flow. Pramana - J. Phys., Vol. 95. 10.1007/s12043-021-02195-w.
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  37. Prasad, K.V., H. Vaidya, F. Mebarek-Oudina, R. Choudhari, K.S. Nisar and W. Jamshed, 2021. Impact of surface temperature and convective boundary conditions on a Nanofluid flow over a radially stretched Riga plate. Proc. Inst. Mech. Eng., Part E: J. Process Mech. Eng., 236: 942-952.
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  38. Mourad, A., Abderrahmane Aissa, F. Mebarek-Oudina, W. Al-Kouz and M. Sahnoun, 2021. Natural convection of nanoliquid from elliptic cylinder in wavy enclosure under the effect of uniform magnetic field: Numerical investigation. Eur. Phys. J. Plus, Vol. 136. 10.1140/epjp/s13360-021-01432-w.
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  39. Mebarek-Oudina, F., N.K. Reddy and M. Sankar, 2021. Heat Source Location Effects on Buoyant Convection of Nanofluids in an Annulus. In: Advances in Fluid Dynamics, Kumar, B.R., R. Sivaraj and J. Prakash (Eds.), Springer, Singapore, ISBN: 978-981-15-4307-4, pp: 923–937.
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  40. Mebarek-Oudina, F., A.K. Hussein, O. Younis, S. Rostami and R. Nikbakhti, 2021. Natural convection enhancement in the annuli between two homocentric cylinders by using ethylene glycol / water based titania nanofluid. J. Adv. Res. Fluid Mech. Therm. Sci., 80: 56-73.
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  41. Mebarek-Oudina, F. and A. Aissa, 2021. Convective Heat Transfer of Magneto Flow of Fe3O4-MWCNT/H2O Hybrid Nanofluid in a Porous Space between Two Concentric Cylinders. In: Mathematical Fluid Mechanics: Advances in Convective Instabilities and Incompressible Fluid Flow, Mahanthesh, B. (Ed.), De Gruyter, Berlin, Boston, pp: 55-74.
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  42. Marzougui, S., F. Mebarek-Oudina, M. Magherbi and A. Mchirgui, 2021. Entropy generation and heat transport of Cu–water nanoliquid in porous lid-driven cavity through magnetic field. Int. J. Numer. Methods Heat Fluid Flow, 32: 2047-2069.
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  43. Kanayo K. Asogwa, Sardar M. Bilal, Isaac L. Animasaun, Fateh M. Mebarek-Oudina 2021. Insight into the significance of ramped wall temperature and ramped surface concentration: The case of Casson fluid flow on an inclined Riga plate with heat absorption and chemical reaction J. Nonlinear Eng., 10: 213-230.
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  44. Djebali, R., F. Mebarek-Oudina and C. Rajashekhar, 2021. Similarity solution analysis of dynamic and thermal boundary layers: Further formulation along a vertical flat plate. Phys. Scr. Vol. 96. 10.1088/1402-4896/abfe31.
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  45. Dhif, K., F. Mebarek-Oudina, S. Chouf, H. Vaidya and A.J. Chamkha, 2021. Thermal analysis of the solar collector cum storage system using a hybrid-nanofluids. J. Nanofluids, 10: 616-626.
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  46. Dadheech, P.K., P. Agrawal, F. Mebarek-Oudina, N.H. Abu-Hamdeh and A. Sharma, 2021. Comparative heat transfer analysis of MoS2/C2H6O2 and SiO2-MoS2/C2H6O2 nanofluids with natural convection and inclined magnetic field. J Nanofluids, 9: 161-167.
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  47. Balachandra, H., C. Rajashekhar, H. Vaidya, F.M. Oudina, G. Manjunatha, K.V. Prasad and Prathiksha, 2021. Homogeneous and heterogeneous reactions on the peristalsis of Bingham fluid with variable fluid properties through a porous channel. J. Adv. Res. Fluid Mech. Therm. Sci., 88: 1-19.
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  48. Balachandra, H., C. Rajashekhar, F. Mebarek-Oudina, G. Manjunatha, H. Vaidya and K.V. Prasad, 2021. Slip effects on a Ree-Eyring liquid peristaltic flow towards an inclined channel and variable liquid properties. J. Nanofluids, 10: 246-258.
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  49. Al-Turki, Y.A., F. Mebarek-Oudina, A. Ahmadian and D. Baleanu, 2021. Flat sheet direct contact membrane distillation desalination system using temperature-dependent correlations: Thermal efficiency via a multi-parameter sensitivity analysis based on Monte Carlo method. J. Therm. Anal. Calorim., 144: 2641-2652.
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  50. Abu-Libdeh, N., F. Redouane, A. Aissa, F. Mebarek-Oudina, A. Almuhtady, W. Jamshed and W. Al-Kouz, 2021. Hydrothermal and entropy investigation of Ag/MgO/H2O hybrid nanofluid natural convection in a novel shape of porous cavity. Appl. Sci., Vol. 11. 10.3390/app11041722.
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  51. Abu-Hamdeh, N.H., K. Daqrouq and F. Mebarek-Oudina, 2021. Simulation and analysis with wavelet transform technique and the vibration characteristics for early revealing of cracks in structures. Math. Probl. Eng., Vol. 2021. 10.1155/2021/6626232.
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  52. Abo-Dahab, S.M., M.A. Abdelhafez, F. Mebarek-Oudina and S.M. Bilal, 2021. MHD casson nanofluid flow over nonlinearly heated porous medium in presence of extending surface effect with suction/injection. Indian J. Phys., 95: 2703-2717.
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  53. Zaim, A., A. Aissa, F. Mebarek-Oudina, B. Mahanthesh, G. Lorenzini, M. Sahnoun and M.E. Ganoui, 2020. Galerkin finite element analysis of magneto-hydrodynamic natural convection of cu-water nanoliquid in a baffled u-shaped enclosure. Propul. Power Res., 10.1016/j.jppr.2020.10.002.
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  54. Swain, K., B. Mahanthesh and F. Mebareku2010Oudina, 2020. Heat transport and stagnationu2010point flow of magnetized nanoliquid with variable thermal conductivity, brownian moment, and thermophoresis aspects. Heat Transfer, 10.1002/htj.21902.
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  55. Slimani, R., A. Aissa, F. Mebarek-Oudina, U. Khan, M. Sahnoun, A.J. Chamkha and M.A. Medebber, 2020. Natural convection analysis flow of Al2O3-cu/water hybrid nanofluid in a porous conical enclosure subjected to the magnetic field. Eur. Phys. J. Appl. Phys., 10.1051/epjap/2020200260.
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  56. Nemati, H., M. Moradaghay, M.A. Moghimi and J.P. Meyer, 2020. Natural convection heat transfer over horizontal annular elliptical finned tubes. Int. Commun. Heat Mass Transfer, 10.1016/j.icheatmasstransfer.2020.104823.
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  57. Mebarek-Oudina, F., R. Bessaih, B. Mahanthesh, A.J. Chamkha and J. Raza, 2020. Magneto-thermal-convection stability in an inclined cylindrical annulus filled with a molten metal. Int. J. Numer. Methods Heat Fluid Flow, 10.1108/hff-05-2020-0321.
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  58. Mebarek-Oudina, F., H. Laouira, A. Aissa, A.K. Hussein and M.E. Ganaoui, 2020. Convection heat transfer analysis in a channel with an open trapezoidal cavity: heat source locations effect. MATEC Web Conf., 10.1051/matecconf/202033001006.
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  59. Marzougui, S., F. Mebarek-Oudina, A. Assia, M. Magherbi, Z. Shah and K. Ramesh, 2020. Entropy generation on magneto-convective flow of copperu2013water nanofluid in a cavity with chamfers. J. Therm. Anal. Calorim., 10.1007/s10973-020-09662-3.
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  60. Khan, U., A. Zaib and F. Mebarek-Oudina, 2020. Mixed convective magneto flow of SiO2-MoS2/C2H6O2  hybrid nanoliquids through a vertical stretching/shrinking wedge: stability analysis. Arabian J. Sci. Eng., 45: 9061-9073.
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  61. Ismael, M.A., A.K. Hussein, F. Mebarek-Oudina and L. Kolsi, 2020. Effect of driven sidewalls on mixed convection in an open trapezoidal cavity with a channel. J. Heat Transfer, 10.1115/1.4047049.
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  62. Farhan, M., Z. Omar, F. Mebarek-Oudina, J. Raza, Z. Shah, R.V. Choudhari and O.D. Makinde, 2020. Implementation of the one-step one-hybrid block method on the nonlinear equation of a circular sector oscillator. Comput. Math. Modeling, 31: 116-132.
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  63. Abdel-Nour, Z., A. Aissa, F. Mebarek-Oudina, A.M. Rashad, H.M. Ali, M. Sahnoun and M.E. Ganaoui, 2020. Magnetohydrodynamic natural convection of hybrid nanofluid in a porous enclosure: numerical analysis of the entropy generation. J. Therm. Anal. Calorim., 141: 1981-1992.
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  64. Raza, J., F. Mebarek-Oudina and B. Mahanthesh, 2019. Magnetohydrodynamic flow of nano Williamson fluid generated by stretching plate with multiple slips. Multidiscip. Model. Mater. Struct., 15: 871-894.
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  65. Raza, J., F. Mebarek-Oudina and A.J. Chamkha, 2019. Magnetohydrodynamic flow of molybdenum disulfide nanofluid in a channel with shape effects. Multidiscip. Model. Mater. Struct., 15: 737-757.
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  66. Mebarek-Oudina, F., 2019. Convective heat transfer of Titania nanofluids of different base fluids in cylindrical annulus with discrete heat source. Heat Transfer-Asian Res., 48: 135-147.
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  67. Mebarek-Oudina, F. and R. Bessaïh, 2019. Numerical simulation of natural convection heat transfer of copper-water nanofluid in a vertical cylindrical annulus with heat sources. Thermophys. Aeromech., 26: 325-334.
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  68. Laouira, H., F. Mebarek-Oudina, A.K. Hussein, L. Kolsi, A. Merah and O. Younis, 2019. Heat transfer inside a horizontal channel with an open trapezoidal enclosure subjected to a heat source of different lengths. Heat Transfer-Asian Res., 49: 406-423.
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  69. Gourari, S., F. Mebarek-Oudina, A. Hussein, L. Kolsi, W. Hassen and O. Younis, 2019. Numerical study of natural convection between two coaxial inclined cylinders. Int. J. Heat Technol., 37: 779-786.
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  70. Mebarek-Oudina, F., 2017. Numerical modeling of the hydrodynamic stability in vertical annulus with heat source of different lengths. Eng. Sci. Technol. Int. J., 20: 1324-1333.
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  71. Mebarek-Oudina, F. and R. Bessaih, 2016. Oscillatory magnetohydrodynamic natural convection of liquid metal between vertical coaxial cylinders. J. Applied Fluid Mech., 9: 1655-1665.
  72. Lakhfif, F., Z. Nemouchi and F. Mebarek-Oudina, 2016. Numerical investigation of the different spray combustion models under diesel condition. Int. J. Applied Eng. Res., 11: 9393-9399.
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  73. Oudina, F.M. and R. Bessaih, 2014. Numerical Modeling of MHD Stability in a Cylindrical Configuration. J. Franklin Inst., 351: 667-681.
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  74. Lakhfif, F., Z. Nemouchi and F.M. Oudina, 2014. Numerical investigation of spray models, using complex chemistry approach in Diesel engine. Appl. Energetics Pollut. Lab., 2: 474-479.
  75. Oudina, F.M., A. Laouar and M. Boudiaf, 2013. Numerical Simulation of the Flows Around two Cylinders of Different Diameters. J. Sci. Res., 6: 14-18.
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  76. Boudiaf, M., F.M. Oudina and K. Talhi, 2013. Analytical study for Determination of the Sandstone Strength Properties. Int. J. Sci. Technol. Res., 2: 293-296.
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  77. Oudina, F.M. and R. Bessaih, 2010. Oscillatory Mixed Convection Flow in a Cylindrical Container with Rotating Disk Under Axial Magnetic Field. Rev. Phys., 4: 229-235.
  78. Oudina, F.M. and R. Bessaih, 2010. Oscillatory Mixed Convection Flow in a Cylindrical Container with Rotating Disk Under Axial Magnetic Field and Various Electric Conductivity Walls. Int. Rev. Phys., 4: 45-51.
    Direct Link  |  
  79. Oudina, F.M. and R. Bessaih, 2007. Magnetohydrodynamic Stability of Natural Convection Flows in Czochralski Crystal Growth. World J. Eng., 4: 15-22.

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