Faculty and Staff

Dr. Bilal’s research interests are primarily focused on Fluid Mechanics, encompassing a broad spectrum of theoretical and applied topics. His work includes the study of Newtonian and non-Newtonian fluids, stretching sheet and boundary layer flows, heat transfer analysis, magnetohydrodynamic (MHD) phenomena, peristaltic motion, unsteady flows, and blood flow in arteries. He has made significant contributions to the field through the publication of numerous research articles in reputable international journals. His research is recognized for its depth, versatility, and strong interdisciplinary relevance, and it has received considerable attention from the scientific community, as reflected by a substantial number of citations from fellow researchers. Currently, Dr. Bilal’s research focuses on advanced engineering applications, numerical and computational techniques, and the simulation of complex flow problems in fluid dynamics. He extensively utilizes mathematical and computational tools such as MATLAB and MATHEMATICA to model and analyze these complex systems with high precision. In addition to his research activities, Dr. Bilal actively contributes to the academic community by serving as a reviewer for several international scientific journals, demonstrating his commitment to maintaining high standards of scholarly research and publication.

Publications

• Ahmed, B. (2025). Numerical Investigation of Thermal Radiation-Enhanced Mixed Convective Hydromagnetic Boundary Layer Flow of Oldroyd-B Fluid over an Exponentially Shrinking Surface. CFD Letters 17(6), 122-133.


• Ahmed, B. & Ahmed AL-Al-Radaideh. (2025). Examining Heat and Mass Transfer in MHD Williamson Micropolar Fluid Flow on a Stretching Sheet with Viscous Dissipation, Chemical Reaction, and Nonlinear Heat Generation/Absorption. Journal of Advanced Research in Numerical Heat Transfer 33(1) 30-47.


• Ahmed, B. & Muhammad Umair. (2025) Effect of Thermal Radiation and Magnetic Field on the Boundary Layer Flow of Hybrid Nanofluid over Exponentially Shrinking Surface with Mass Suction/Injection with Thermal Radiation: Finite Difference Analysis. Journal of Nanofluids 14, 315–327.


• Ahmed, B. & Anwar, F. (2024). Inertial Aftermaths on Peristaltic Drive of MHD Micropolar Fluid in a Two-Dimensional Asymmetric Inclined Porous Soaked Channel Independent of Wavelength: Galerkin Finite Element Simulation. AIP Advances. 14, 12520.


• Ahmed, B. (2024). Numerical Study on Magnetic Control of Boundary Layers in Non-Newtonian Flows Over Stretching Cylinders Using Keller Box Analysis. AIP Advances, 14(4), 045017.


• Ahmed, B. (2024). Bi-directional Forced Convective Stagnation Points Flow of Oldroyd-B Liquid with Joule Heating Effects: A Finite Difference Simulations. CFD Letters, 16(7), 22-38.


• Ahmed, B., Ali, L., & Anwar, F. (2024). Novel study of inertial forces on MHD peristaltically driven micropolar fluid through porous-saturated asymmetric channel: Finite Galerkin approach. AIP Advances, 14(2), 025345.


• Alfalqi, S., Niazi, A. U. K., Ramay, E., Ahmed, B., & Alhagyan, M. (2024). Dynamics and Analysis of Dengue Epidemics: A Fractional Order SIR Model with Next-Generation Matrix Methodology. Research Square https://doi.org/10.21203/rs.3.rs-3744826/v2


• Ahmed, B., Nouman, M., Aqsa, A., & Kanwal, S. (2023). Numerical Investigation of Non-linear Radiation Effects in Boundary Layer Oblique Stagnation Point Flow of non-Newtonian Fluids over a Symmetrically Stretching Surface under the Effects of Magnetic Field. Scientia Iranica.


• Ahmed, B., Ashraf, A., & Anwar, F. (2023). Inertial considerations in peristaltically activated MHD blood flow model in an asymmetric channel using Galerkin finite element simulation for moderate Reynolds number. Alexandria Engineering Journal, 75, 495-512.


• Ali, L., & Ahmed, B. (2023). Peristaltic mechanism in an inclined asymmetric channel soaked with porous media and under magnetic effects: Numerical simulation equipped with finite element method. Journal of Electromagnetic Waves and Applications, 37(15), 1235-1257.


• Ahmed, B. (2023). Information of stagnation-point flow of Maxwell fluid past symmetrically exponential stretching/shrinking cylinder with prescribed heat flux. AIP Advances, 13(4).


• Abuasbeh, K., Ahmed, B., Niazi, A. U. K., & Awadalla, M. (2023). Entropy Generation for MHD Peristaltic Transport of Non-Newtonian Fluid in a Horizontal Symmetric Divergent Channel. Symmetry, 15(2), 359.


• Ahmed, B., Khan, S. U., Khan, M. I., Gouadria, S., Hamid, A. H., Yousaf, M., & Malik, M. Y. (2022). Magnetic Characteristics of Biological Fluid in Nonlinear Thermally Radiated Blood Flow. Journal of Magnetics, 27(1), 106-115.


• Khan, M. I., Lashin, M. M., Khedher, N. B., Ahmed, B., Khan, S. U., Oreijah, M., ... & Galal, A. M. (2022). Peristaltic phenomenon in an asymmetric channel subject to inclined magnetic force and porous space. Bioengineering, 9(10), 588.


• Ahmed, B., Akbar, F., Ghaffari, A., Ullah Khan, S., Khan, M. I., & Dharmendar Reddy, Y. (2022). Soret and Dufour aspects of the third-grade fluid due to the stretching cylinder with the Keller box approach. Waves in Random and Complex Media, 1-13.


• Ahmed, B., Khan, S. U., Ahmad, S., Shehzad, S. A., & Chammam, W. (2022). Galerkin finite element analysis for peristaltic flow of micropolar fluid through porous soaked inclined tube independent of wavelength. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 236(3), 1067-1075.


• Tong, Z. W., Ahmed, B., Al-Khaled, K., Khan, S. U., Khan, M. I., Ahmad, S., ... & Xia, W. F. (2022). Peristaltic blood transport in non-Newtonian fluid confined by porous soaked tube: a numerical study through Galerkin finite element technique. Arabian Journal for Science and Engineering, 1-13.


• Shi, Q. H., Ahmed, B., Ahmad, S., Khan, S. U., Sultan, K., Bashir, M. N., ... & Chung, J. D. (2021). Dual solution framework for mixed convection flow of Maxwell nanofluid instigated by exponentially shrinking surface with thermal radiation. Scientific Reports, 11(1), 15944.


• Niazi, A. U. K., He, J., Shafqat, R., & Ahmed, B. (2021). Existence, Uniqueness, and Eq–Ulam-Type Stability of Fuzzy Fractional Differential Equation. Fractal and Fractional, 5(3), 66.


• Javed, T., Hamid, A. H., Ahmed, B., & Ali, N. (2021). Effect of heat transfer on peristaltic flow in presence of heat generation against higher value of Reynolds number using FEM. Journal of Theoretical and Applied Mechanics, 59(2), 279-292.


• Qian, W. M., Ahmed, B., Khan, S. U., Khan, M. I., & Hamid, A. H. (2021). Novel scientific simulations (finite element method) for peristaltic blood flow in an asymmetric channel: applications of magnetic and inertial forces. Journal of Magnetics, 26(1), 129-140.


• Ge-JiLe, H., Ahmed, B., Al-Khaled, K., ul Mehdi, M. T., Khan, S. U., Khan, M. I., & Chu, Y. M. (2021). ssPeristaltic activity in an asymmetric inclined channel with inertial forces under the inducement of magnetic field: Finite Element Method. Alexandria Engineering Journal, 60(5), 4723-4734.

Awards & Honors

• Faculty Research Excellence Bronze Award was awarded by University of Science and Technology of Fujairah, UAE


• HEC PAK Approved Supervisor May 2019 and April 2022 in the discipline of Physical Sciences


• HEC PAK Scholarship: PhD fellowship for 5000 scholars – Phase II under Category A; HEC Pakistan, July 2012 – July 2016


• Distinction: Highest CGPA in M. Phil; Riphah International University, Islamabad, Pakistan; Mar 2012


• Merit Scholarship: During M. Phil; Riphah International University, Islamabad, Pakistan; Sep 2010


• Merit Scholarship: During M. Phil; Riphah International University, Islamabad, Pakistan; Feb 2010