Dr. M. Sabeel Khan

Associate Professor

muhammad.sabeel@cust.edu.pk

+92-51-111-555-666

PROFILE SUMMARY

Dr. Khan holds a Promotion degree in Computational Mechanics and Applied Mathematics with distinction magna cum laude from Ruhr-University Bochum (RUB), Germany. He has a PostDoc in CFD at Institute of Energy Process and Engineering at RUB, Germany. He has attended and presented his research work at many international workshops, colloquium and conferences at different institutes of high prestige including summer school (CISM) on “Plasticity, computational inelasticity, phase transitions, and beyond” in Italy. He has more than ten (10) years of university teaching and research experience. He has published a large number high impact factor research articles in international journals of high repute. He is HEC approved PhD supervisor. He has produced a number of MS and PhD students in Finite Element Analysis, Numerical Analysis, Computational Mechanics and FSI. He has also won different funded research projects from HEC and involved in international research collaboration. His research interests include: Computational Mechanics of Solids, Extended Continuum Field Theories, non-Classical Continuum Theories, Eringen Field Theories, Mechanics of Fluid-Solid Interactions, Finite Element Analysis, Numerical Analysis, Modeling and Simulations, Coding with FreeFEM++ and FEniCS, Data driven solution for PDES, Neural PDEs and Machine Learning Algorithms.

QUALIFICATION
Post Doctoral	Computational Mechanics	Ruhr-Universit¨at Bochum, Germany	2014
PhD	Computational Mechanics	Ruhr-Universit¨at Bochum, Germany	2013
MSc	Computational Mechanics	Ruhr-Universit¨at Bochum, Germany	2009

TEACHING EXPERIENCE
Associate Professor	Capital University of Science and Technology (CUST), Islamabad	Since – 2022
Assistant Professor	Department of Mathematics, Sukkur Institute of Business Administration Unviersity (SIBAU), Sukkur	2020 – 2021
Assistant Professor	Department of Applied Mathematics and Statistics, Institute of Space Technology, Islamabad	2015 – 2019

RESEARCH AREAS / INTERESTS
1.	Computational Mechanics
2.	Numerical Analysis
3.	Computational Fluid Dynamics
4.	Finite Element Analysis

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SR.	JOURNAL PUBLICATIONS	YEAR
1	I. Hameed and M. S. Khan, “On the Simulations of Micromagnetorotation (MMR) Effects Within Micropolar Conducting Liquids,” International Journal of Ambient Energy, vol. 45, no. 1, p. 2318627, 2024.	2024
2	M. S. Khan, “Computational Heat Transfer Analysis of Liquid Food in a Heat Exchanger with Varying Stirrer Settings in a Nonclassical Continuum Framework,” Numerical Heat Transfer, Part B: Fundamentals, pp. 1–20, 2024.	2024
3	D.-e.-S. Sagheer, M. Alqudah, N. A. Alshehri, M. S. Khan, M. A. Memon, R. Shehzad, and A. Fenta, “Thermal Analysis of a Casson Boundary Layer Flow Over a Penetrable Stretching Porous Wedge,” Journal of Mathematics, vol. 2024, no. 1, p. 1666959, 2024.	2024
4	K. Sudarmozhi, D. Iranian, M. Alqarni, M. S. Khan, E. E. Mahmoud, R. Pradhan, and M. Haque, “Exploring the Steady Flow of a Viscoelastic Fluid Passing Over a Porous Perpendicular Plate Subjected to Heat Generation and Chemical Reactions,” Journal of Mathematics, vol. 2024, no. 1, p. 6947400, 2024.	2024
5	M. Khan and I. Hameed, “FreeFEM++ Based Heat Transfer Analysis of an Electrically Induced Magnetic Flow Within the Framework of Micropolar Continuum,” Numerical Heat Transfer, Part A: Applications, vol. 85, no. 18, pp. 3110–3128, 2024.	2024
6	M. S. Khan, “Computational Heat Transfer Analysis of Liquid Food in a Heat Exchanger with Varying Stirrer Settings in a Nonclassical Continuum Framework,” Numerical Heat Transfer, Part B: Fundamentals, pp. 1–20, 2024.	2024
7	M. S. Khan, M. A. Memon, I. Khan, and S. M. Eldin, “Finite Element Based Direct and Iterative Approach to Investigate a Magneto-Micropolar Flow Through a Rectangular Channel,” Alexandria Engineering Journal, vol. 75, pp. 55–66, 2023.	2023
8	M. A. Memon, M. S. Khan, S. Saleem, S. Eldin, and K. Jacob, “Heat Transfer Through a Higher Grade Forchheimer Porous CuO–H₂O-Nano-Medium Confined Between Non-Isothermal Moving Plates,” Case Studies in Thermal Engineering, vol. 47, p. 103035, 2023.	2023
9	N. H. Hajano, M. S. Khan, L. Liu, M. A. Kaloi, and H. Mei, “Combined Micro-Structural Effects of Linearly Increasing Reynolds Number and Mean Inflow Velocity on Flow Fields with Mesh Independence Analysis in Non-Classical Framework,” Mathematics, vol. 11, no. 9, p. 2074, 2023.	2023
10	M. S. Khan, I. Hameed, M. A. Memon, and E. Bonyah, “Computational Analysis of Magnetic Induced Micropolar Flow in a Rectangular Channel Through FreeFEM++,” AIP Advances, vol. 13, no. 4, 2023.	2023
11	M. A. Memon, M. A. Al-Malki, M. S. Khan, S. Hussain, H. ur Rehman, A. Fenta et al., “Squeezed Darcy–Forchheimer Casson Nanofluid Flow Between Horizontal Plates Under the Effect of Inclined Magnetic Field,” Nanoscale Advances, vol. 5, no. 24, pp. 6925–6934, 2023.	2023
12	K. Sudarmozhi, D. Iranian, M. A. Memon, P. Selvi, M. S. Khan, and A. Fenta, “Viscoelastic Fluid Flow Over a Horizontal Flat Plate with Various Boundary Slip Conditions and Suction Effects,” Nanoscale Advances, vol. 5, no. 22, pp. 6102–6114, 2023.	2023
13	M. S. Khan and I. Hameed, “A New Magneto-Micropolar Boundary Layer Model for Liquid Flows–Effect of Micromagnetorotation (MMR),” arXiv Preprint arXiv:2308.08457, 2023.	2023
14	M. S. Khan, A. Rauf, “On the Effective and Consistent Implementation of Complex Materials Law in FreeFEM++ Within the Framework of a Relaxed Micromorphic Continuum,” In Preparation, 2022.	2022
15	M. S. Khan, M. A. Memon, and E. Bonyah, “Investigation of Relaxation Time on Viscoelastic Two-Dimensional Flow Characteristics Using FreeFEM++,” Journal of Mathematics, vol. 2022, no. 1, p. 4977793, 2022.	2022
16	N. Hussain, M. S. Khan, and L. Liu, “A Monolithic Eulerian Formulation for Non-Classical Fluid-Structure Interaction (NCFSI): Modeling and Simulation,” arXiv Preprint arXiv:2204.03530, 2022.	2022
17	N. Hussain, M. S. Khan, and L. Liu, “Numerical Study of Cosserat Fluid-Structure Interaction in a Monolithic Eulerian Framework,” arXiv Preprint arXiv:2203.16493, 2022.	2022
18	M. B. Hafeez, M. Khan, I. Qureshi, J. Alebraheem, and A. Elmoasry, “Particle Rotation Effects in Cosserat-Maxwell Boundary Layer Flow with Non-Fourier Heat Transfer Using a New Novel Approach,” Scientia Iranica, vol. 28, no. 3, pp. 1223–1235, 2021.	2021
19	M. S. Khan, “A New Viscosity Constitutive Model for Generalized Newtonian Fluids Using Theory of Micropolar Continuum,” Contemporary Mathematics, pp. 134–148, 2020.	2020
20	S. M. Khan and H. Kaneez, “Numerical Computation of Heat Transfer Enhancement Through Cosserat Hybrid Nanofluids Using Continuous Galerkin–Petrov Method,” The European Physical Journal Plus, vol. 135, no. 2, pp. 1–19, 2020.	2020
21	M. S. Khan, “On the Observation of Extended Microstructures and Localized Deformations in Granular Materials - A Feature of Exact Quasi-Convex Energy Envelope,” Latin American Journal of Solids and Structures, vol. 16, no. 04, p. e186, 2019.	2019
22	M. S. Khan, “Analytical Results for the Equilibrium Configurations of a Three-Phase Elastic Material,” AIP Advances, vol. 9, no. 2, 2019.	2019
23	M. S. Khan, “Martensitic Detwinning Microstructures in Crystalline Materials - Mechanical Modeling with Exact Computation of Relaxed Energy: A Time Incremental Formulation,” AIP Advances, vol. 9, no. 6, 2019.	2019
24	M. I. Khan, M. S. Khan, and A. G. Araya, “Linear Stability Characteristics of the Pressure-Gradient Driven Flow Confined in Concentric Cylinders with the Rotation of Outer Cylinder and Translation of Inner Cylinder,” AIP Advances, vol. 9, no. 6, 2019.	2019
25	M. S. Khan and M. I. Khan, “A Novel Numerical Algorithm Based on Galerkin–Petrov Time-Discretization Method for Solving Chaotic Nonlinear Dynamical Systems,” Nonlinear Dynamics, vol. 91, no. 3, pp. 1555–1569, 2018.	2018

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SR.	CONFERENCE PUBLICATIONS	YEAR
1	K. Vollmari, M. S. Khan, T. Oschmann, and H. Kruggel-Emden, “Numerical and experimental investigation of the pressure drop in packings of spherical and non-spherical particles,” in AIP Conference Proceedings, vol. 1648, no. 1. AIP Publishing, 2015.	2015
2	Kravets B, Khan M.S., Kruggel-Emden H., (2015), Development and application of thermal Lattice Boltzmann scheme, AIP (American Institute of Physics) Conf. Proc. 1648, 400003, 2015	2015
3	M. S. Khan and K. Hackl, “A constitutive model for granular materials with microstructures using the concept of energy relaxation,” PAMM, vol. 13, no. 1, pp. 187–188, 2013.	2013
4	M. S. Khan and K. Hackl, “A constitutive model for granular materials with microstructures using the concept of energy relaxation,” PAMM, vol. 13, no. 1, pp. 187–188, 2013.	2013
5	M. S. Khan and K. Hackl, “Prediction of microstructure in a cosserat continuum using relaxed energies,” PAMM, vol. 12, no. 1, pp. 265–266, 2012.	2012

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