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Dr. Mohammad Abu Zaytoon

Dr Reyaz Ahmad

Assistant Professor, Faculty of Mathematics and Data Science

Telephone: +971 4 6050146

Email: Mohammadsaleh.Abuzaytoon@eau.ac.ae

Dr. Mohammad Abu Zaytoon is an Assistant Professor at the Faculty of Mathematics and Data Sciences, specializing in the interdisciplinary realms of mathematical modelling, data sciences, and computational fluid dynamics. With a Ph.D. earned from the University of New Brunswick in Canada, Dr. Abu Zaytoon has become a researcher and educator. Dr. Abu Zaytoon's main research focus involves using mathematical models to study fluid flow through porous media, with the aim of understanding how fluids move through complex structures. His work involves applying data science techniques to improve computational fluid dynamics. Dr. Abu Zaytoon has shared his expertise as an academic in various universities across Canada, the United Arab Emirates, and Jordan. In addition to his work in fluid dynamics, Dr. Abu Zaytoon is also interested in the analysis of nonlinear partial differential equations as well as the theory of knot invariants, showing a multifaceted approach to mathematics.

  • Ph.D. in Mathematics , University of New Brunswick, NB, Canada, 2015.
  • M.S. Mathematics and Statistics , Jordan University of Scie and Tech, Irbid, Jordan, 2006.
  • B.S. Mathematics and Statistics, Jordan University of Scie and Tech , Irbid, Jordan. 2003.
  • Mathematics
  • Data Science
    • Applied Mathematics.
    • Fluid Flow through Porous Media.
    • Analysis of Non- linear Partial Differential Equations.
    • Data Science
    • Theory of Knot Invariants.
      1. K. Bataineh, M. Abu Zaytoon, (2010), Vassiliev Invariants of Type One for Links in the Solid Torus, Topology and its Applications, Vol.157 No.16, pp. 2495-2504.
      2. S.M. Alzahrny, M.S. Abu Zaytoon, T.L. Alderson, I. Gadoura and M.H. Hamdan, (2016), On The Nield Kuznetsov integral function and its application to Airy’s inhomogeneous boundary value problem, J. Adv. in Physics, Vol.11 No.5, pp. 3525-3274.
      3. M. S. Abu Zaytoon, T. L. Alderson and M. H. Hamdan, (2016), Flow over a Darcy porous layer of variable permeability, J. Appl. Mathematics and Physics, Vol. 4, pp. 86-99.
      4. M. S. Abu Zaytoon, T. L. Alderson and M. H. Hamdan, (2016), Flow through Layered Media with Embedded Transition Porous Layer, Int. J. of Enhanced Res. in Scie., Tech. and Eng., Vol. 5 Issue 4, pp. 9-26.
      5. M. S. Abu Zaytoon, T. L. Alderson and M. H. Hamdan, (2016), Flow through Variable Permeability Composite Porous Layers, General Math. Notes, Vol. 33 No. 1, pp. 26-39./
      6. M. S. Abu Zaytoon, T. L. Alderson and M. H. Hamdan, (2016), Flow through a Variable Permeability Brinkman Porous Core, J. Appl. Mathematics and physics, Vol. 4, pp. 766–778.
      7. M. S. Abu Zaytoon, T. L. Alderson and M. H. Hamdan, (2016), Flow through a Layered Porous Configuration with Generalized Variable Permeability, Int. J. of Enhanced Res. In Scie., Tech. and Eng., Vol. 5 Issue 6, pp. 1–21.
      8. M. S. Abu Zaytoon, F.M. Allan, T. L. Alderson and M. H. Hamdan, (2016), Averaged Equations of Flow of Fluid with Pressure-Dependent Viscosity through Porous Media, Elixir Appl. Math. Vol. 96. pp. 41336–41340.
      9. R. A. Ford, M. S. Abu Zaytoon and M. H. Hamdan, (2016), Simulation of flow through layered porous media, IOSR Journal of Engineering, Vol.0 6 Issue 6, pp. 48 – 61.
      10. M. S. Abu Zaytoon, T. L. Alderson and M. H. Hamdan, (2016), Weber’s Inhomogeneous Differential Equation with Initial and Boundary Conditions, int. J. Open Problems Copmt. Math, Vol. 9 No.2.
      11. M. S. Abu Zaytoon,and M. H. Hamdan, (2016), The flow of a Saffman’s Dusty Gas with Pressure-Dependent Viscosity through Porous Media, Elixir Appl. Math. Vol. 96. pp. 42554–42554.
      12. D. C. Roach, M. S. Abu Zaytoon, and M. H. Hamdan, (2016), On the Flow of Dusty Gases with Pressure Dipendant Viscosities through Porous Structures, Int. J. of Enhanced Res. In Scie., Tech. and Eng., Vol. 5 Issue 9, pp. 46–54.
      13. M. S. Abu Zaytoon and M. H. Hamdan, (2017), A Note on the Beavers amd Joseph Conditions for Flow Over a Forchhiemer Porous Layer, Int. J. of Res. in Scie., Vol. 5 Isuue 3, pp. 13–20.
      14. M.H. Hamdan, M. S. Abu Zaytoon, (2017), Emden-Fowler Equation and Inverse Analysis of Simple Flows through Variable Permeability Porous Layers, int. J. Open Problems Copmt. Math, Vol. 10 No.2, pp. 24–36.
      15. M. S. Abu Zaytoon, T. L. Alderson, M. H. Hamdan, (2018) A Study of Flow through a Channel Bounded by a Brinkman Transition Porous Layer, J. Appl. Mathematics and Physics, Vol. 6, pp. 264–282.
      16. M.H. Hamdan, M.A. Hajji, R. A. Ford, M. S. Abu Zaytoon, (2018), Grid Distortion Errors in Streamfunction Coordinates, int. J. Open Problems Copmt. Math, Vol. 11 No 4, pp.7–110.
      17. M. S. Abu Zaytoon, Roberto Silva-Zea, M.H. Hamdan,(2021), A Modified Beavers and Joseph Condition for Gravity-Driven Flow over Porous Layers, WSEAS TRANSACTIONS on HEAT and MASS TRANSFER, Vol. 16, pp. 79-94.
      18. M.S. Zaytoon, S. Jayyousi Dajani, M. H. Hamdan, (2021), Recent Advances in the Nield- Kuznetsov Functions, WSEAS TRANSACTIONS on SYSTEMS, Vol. 20, pp. 178-186.
      19. M.S. Zaytoon, S. Jayyousi Dajani, M. H. Hamdan, (2021), Effects of the porous Microstructure on the drag Coefficent in Flow of Fluid with pressure-Dependent Viscosity, INTERNATIONA JOURNAL OF MECHANICS, VOL. 15,pp. 136-143.
      20. M. H. Hamdan, S. Jayyousi Dajani, M.S. Abu Zaytoon, (2021), Nield-Kuzentsov Functions:Current Advances and New Results, INTERNATIONAL JOURNAL OF CIRCUITS, SYSTEMS AND SIGNAL PROCESSING, Vol. 15, pp. 1506-1520.
      21. M. H. Hamdan, S. M. Alzahrani, M. S. Abu Zaytoon, S. Jayyousi Dajani,(2021), Inhomogeneous Airy’s and Generalized Airy’s Equations with Initial and Bounday Conditions, INTERNATIONAL JOURNAL OF CIRCUITS, SYSTEMS AND SIGNAL PROCESSING, Vol. 15, pp. 1486-1496.
      22. M. H. Hamdan, M.S. Abu Zaytoo, (2021, September, 18), The Generalized Forchheimer Equation with Microstructure effect, ISPEC 11th International Conference On Engineering & Natural Sciences [Paper Presentation], Mus, TURKEY, pp. 275-283.
      23. M. S. Abu Zaytoon, M.H. Hamdan, (2021), Two-Dimensional Flow of a Pressure-Dependent Viscosity Fluid in Porous Media with a Specified Streamfunction, International Journal of Theoretical and Applied Mechanics, Vol. 6, pp. 27-34.
      24. M. S. Abu Zaytoon, M.H. Hamdan, Yiyun (Lisa) Xiao, Generalized models of flow of a fluid with pressure-dependent viscosity through porous channels: channel entry conditions, International Journal of Physical Research, Vol. 9 No 2, pp. 84–91.
      25. M. S. Abu Zaytoon, Yiyun (Lisa) Xiao, (2021), Flow of a Fluid with Pressure-Dependent Viscosity through Variable Permeability Porous Layer, WSEAS TRANSACTIONS on APPLIED and THEORETICAL MECHANICS, Vol. 16, pp. 204–212.
      26. M.H. Hamdan, S. Jayyousi Dajani, M. S. Abu Zaytoon,(2021), Higher Derivatives and Polynomials of the Standard Nield-Kuznetsov Function of the first Kind, International Journal of Circuits, System and signal Processing, Vol. 15, pp. 1737–1743.
      27. S. Jayyousi Dajani, M. S. Abu Zaytoon, M. H. Hamdan, (2021), Two-Pressure Model of Particle-Fluid Mixture Flow with Pressure-Dependent Viscosity in a Porous Medium, WSEAS TRANSACTIONS on APPLIED and THEORETICAL MECHANICS, Vol. 16, pp. 85–93.
      28. M. S. Abu Zaytoon, M.H. Hamdan, (2022), Weber Equation Model of Flow through Variable-Permeability Porous Core Bounded by Fluid Layers, Journal of Fluid Engineering Vol. 144, pp. (041302-1)– (041302-9).
      29. M. S. Abu Zaytoon, M. H. Hamdan,(2022), Parallel Flow of a Pressure-Dependent Viscosity Fluid through Composite Porous Layers, WSEAS TRANSACTIONS on FLUID MECHANICS Vol. 17, pp. 1–9.
      30. M. S. Abu Zaytoon, M.H. Hamdan, (2022), Fluid Mechanics at the Interface between a Variable Viscosity Fluid Layer and a Variable Permeability Porous Medium, WSEAS TRANSACTIONS on HEAT and MASS TRANSFER, Vol. 16, pp. 159–169.