Dr. Ayesha Rehman
Profile Summary
Dr. Aysha Rehman working as an Assistant Professor in Department of Mathematics at Grand Asian University, Sialkot. Her research interest includes; Applied and Computational Mathematics. She has been a member of various international conferences and workshops.
She has 35 publications with cumulative impact factor more than 30. She has been the peer reviewer of International Communications in Heat and Mass Transfer, Waves in Random and Complex media, Mathematical Problems in Engineering, Numerical Methods for Partial Differential Equations, Mathematics, Processes. One element of Dr. Aysha research involves the mixed convection flow of non-Newtonian nano-fluid. She has been awarded the Award of Performance Excellence to GIMS Affiliated campus PMAS-Arid Agriculture University Gujrat during the year 2017-2018. She has done her doctorate from university of Gujrat in the field of mathematics. She has experience of twelve years for teaching graduate/undergraduate classes.
Experience
Assistant Professor, Department of Mathematics/Deputy Director ORIC |
Grand Asian University of Sialkot (GAUS) |
2022 till date |
Lecturer |
Gujrat Institute of Management Sciences affiliated campus PMAS-Arid Agriculture University Rawalpindi |
2017-2019 |
Lecturer |
University of Gujrat (UOG) |
2015-2017 |
Associate Lecturer |
University of Gujrat (UOG) |
2010-2015 |
Hostel warden |
University of Gujrat (UOG) |
2011-2012 |
Lecturer |
Professional college of commerce, Sialkot |
2009-2010 |
Publications
1. Rehman, A., Hussain, A., & Nadeem, S. (2021). Physical aspects of convective and radiative molecular theory of liquid originated nanofluid flow in the existence of variable properties. Physica Scripta, 96(3), 035219. https://doi.org/10.1088/1402-4896/abd790 Impact factor: 2.847 2. Hussain, A., Rehman, A., Nadeem, S., Malik, M. Y., Issakhov, A., Sarwar, L., & Hussain, S. (2021). A combined convection carreau–yasuda nanofluid model over a convective heated surface near a stagnation point: a numerical study. Mathematical Problems in Engineering, 2021. https://doi.org/10.1155/2021/6665743 Impact factor: 1.305 3. Rehman, A., Hussain, A., & Nadeem, S. (2021). Assisting and opposing stagnation point pseudoplastic nano liquid flow towards a flexible Riga sheet: a computational approach. Mathematical Problems in Engineering, 2021. https://doi.org/10.1155/2021/6610332 Impact factor: 1.305 4. Khan, M. N., Ahmad, S., Nadeem, S., Sherif, E.-S. M., Ahmad, H., Thounthong, P., & Rehman, A. (2021). Unsteady flow of three-dimensional Maxwell nanofluid with variables properties over a stretching surface. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering. https://doi.org/10.1177/09544089211039055 Impact factor: 1.620
5. Hussain, A.; Elkotb, M.A.; Arshad, M.; Rehman, A.; Sooppy Nisar, K.; Hassan, A.; Saleel, C.A. Computational Investigation of the Combined Impact of Nonlinear Radiation and Magnetic Field on Three-Dimensional Rotational Nanofluid Flow across a Stretchy Surface. Processes 2021, 9, 1453. https://doi.org/10.3390/pr9081453 Impact factor: 2.847 6. Hussain, A., Arshad, M., Rehman, A., Hassan, A., Elagan, S. K., Ahmad, H., & Ishan, A. (2021). Three-Dimensional Water-Based Magneto-Hydrodynamic Rotating Nanofluid Flow over a Linear Extending Sheet and Heat Transport Analysis: A Numerical Approach. Energies, 14(16), 5133. https://doi.org/10.3390/en14165133 Impact factor: 3.004 7. Hussain, A., Hassan, A., Al Mdallal, Q., Ahmad, H., Rehman, A., Altanji, M., & Arshad, M. (2021). Heat transport investigation of magneto-hydrodynamics (SWCNT-MWCNT) hybrid nanofluid under the thermal radiation regime. Case Studies in Thermal Engineering, 101244. https://doi.org/10.1016/j.csite.2021.101244 Impact factor: 4.724 8. Hussain, A., Hassan, A., Al Mdallal, Q., Ahmad, H., Rehman, A., Altanji, M., & Arshad, M. (2021). Heat transportation enrichment and elliptic cylindrical solution of time-dependent flow. Case Studies in Thermal Engineering, 27, 101248. https://doi.org/10.1016/j.csite.2021.101248 Impact factor: 4.724 9. Hussain, A., Arshad, M., Rehman, A., Hassan, A., Elagan, S. K., & Alshehri, N. A. (2021). Heat Transmission of Engine-Oil-Based Rotating Nanofluids Flow with Influence of Partial Slip Condition: A Computational Model. Energies, 14(13), 3859. Impact factor: 3.004 10. Hussain, A., Rehman, A., Nadeem, S., Khan, M. R., & Issakhov, A. (2021). A Computational Model for the Radiated Kinetic Molecular Postulate of Fluid-Originated Nanomaterial Liquid Flow in the Induced Magnetic Flux Regime. Mathematical Problems in Engineering, 2021. https://doi.org/10.1155/2021/6690366 Impact factor: 1.305 11. Zhou, C. J., Abidi, A., Shi, Q. H., Khan, M. R., Rehman, A., Issakhov, A., & Galal, A. M. (2021). Unsteady radiative slip flow of MHD Casson fluid over a permeable stretched surface subject to a non-uniform heat source. Case Studies in Thermal Engineering, 101141. https://doi.org/10.1016/j.csite.2021.101141 Impact factor: 4.724 12. Hussain, A., Alshbool, M. H., Abdussattar, A., Rehman, A., Ahmad, H., Nofal, T. A., & Khan, M. R. (2021). A computational model for hybrid nanofluid flow on a rotating surface in the existence of convective condition. Case Studies in Thermal Engineering, 101089. https://doi.org/10.1016/j.csite.2021.101089 Impact factor: 4.724 13. Ahmad, S., Nadeem, S., Rehman, A., (2021). Mathematical Analysis of Thermal Energy Distribution in a Hybridized Mixed Convective Flow. Journal of nanofluids. Volume 10, Number 2, June 2021, pp. 222-231(10) https://doi.org/10.1166/jon.2021.1778 Impact factor: 0.4. 14. Hussain, A., Haider, Q., Rehman, A., Ahmad, H., Baili, J., Aljahdaly, N. H., & Hassan, A. (2021). A thermal conductivity model for hybrid heat and mass transfer investigation of single and multi-wall carbon nano-tubes flow induced by a spinning body. Case Studies in Thermal Engineering, 28, 101449. https://doi.org/10.1016/j.csite.2021.101449 Impact factor: 4.724 15. Hussain, A., Arshad, M., Hassan, A., Rehman, A., Ahmad, H., Baili, J., & Gia, T. N. (2021). Heat transport investigation of engine oil based rotating nanomaterial liquid flow in the existence of partial slip effect. Case Studies in Thermal Engineering, 28, 101500. https://doi.org/10.1016/j.csite.2021.101500 Impact factor: 4.724 16. Hussain, A., Hassan, A., Mdallal, Q. A., Ahmad, H., Sherif, E. S. M., Rehman, A., & Arshad, M. (2021). Comsolic solution of an elliptic cylindrical compressible fluid flow. Scientific Reports, 11(1), 1-12. Impact factor: 4.379 17. Hussain, A., Haider, Q., Rehman, A., Abdussattar, A., & Y Malik, M. (2021). A New Heat Dissipation Model and Convective Two-Phase Nanofluid in Brittle Medium Flow over a Cone. Mathematical Problems in Engineering, 2021. https://doi.org/10.1155/2021/6688747 Impact factor: 1.305 18. Hussain, A., Haider, Q., Rehman, A., Malik, M. Y., Nadeem, S., & Hussain, S. (2021). Heat Transport Improvement and Three-Dimensional Rotating Cone Flow of Hybrid-Based Nanofluid. Mathematical Problems in Engineering, 2021. https://doi.org/10.1155/2021/6633468 Impact factor: 1.305 19. Hussain, A., Hassan, A., Arshad, M., Rehman, A., Matoog, R. T., & Abdeljawad, T. (2021). Numerical simulation and thermal enhancement of multi-based nanofluid over an embrittled cone. Case Studies in Thermal Engineering, 28, 101614. https://doi.org/10.1016/j.csite.2021.101614 Impact factor: 4.724 20. Ahmad, S., Khan, M. N., Nadeem, S., Rehman, A., Ahmad, H., & Ali, R. (2021). Impact of Joule heating and multiple slips on a Maxwell nanofluid flow past a slendering surface. Communications in Theoretical Physics, 74(1), 015001. https://doi.org/10.1088/1572-9494/ac3bc8 Impact factor: 1.968 21. Hou, Enran, Azad Hussain, Aysha Rehman, Dumitru Baleanu, Sohail Nadeem, R. T. Matoog, Ilyas Khan, and El-Sayed M. Sherif. "Entropy generation and induced magnetic field in pseudoplastic nanofluid flow near a stagnant point." Scientific Reports 11, no. 1 (2021): 1-25. https://doi.org/10.1038/s41598-021-02997-3 Impact factor: 4.379 22. Hou, E., Wang, F., Khan, M. N., Ahmad, S., Rehman, A., Almaliki, A. H., ... & Alqurashi, M. S. (2021). Flow Analysis of Hybridized Nanomaterial Liquid Flow in the Existence of Multiple Slips and Hall Current Effect over a Slendering Stretching Surface. Crystals, 11(12), 1546. https://doi.org/10.3390/cryst11121546 Impact factor: 2.589 23. Hussain, A., Rehman, A., Ahmed, N., El-Shafay, A. S., Najati, S. A., Almaliki, A. H., & Sherif, E. S. M. (2021). Heat Transfer and Flow Characteristics of Pseudoplastic Nanomaterial Liquid Flowing over the Slender Cylinder with Variable Characteristics. Crystals, 12(1), 27. https://doi.org/10.3390/cryst12010027 Impact factor: 2.589 24. Ahmad, S., Naveed Khan, M., Rehman, A., Felemban, B. F., Alqurashi, M. S., Alharbi, F. M., ... & Galal, A. M. (2021). Analysis of Heat and Mass Transfer Features of Hybrid Casson Nanofluid Flow with the Magnetic Dipole Past a Stretched Cylinder. Applied Sciences, 11(23), 11203. https://doi.org/10.3390/app112311203 Impact factor: 2.679. 25. Jiang, Y., Zhang, J., Abdeljawad, T., Ahmad, S., Naveed Khan, M., Rehman, A., ... & El-Shafay, A. S. (2022). Blasius–Rayleigh–Stokes Flow of Hybrid Nanomaterial Liquid Past a Stretching Surface with Generalized Fourier’s and Fick’s Law. Nanomaterials, 12(3), 439. https://doi.org/10.3390/nano12030439 Impact factor: 5.076. 26. Xia, W. F., Ahmad, S., Khan, M. N., Ahmad, H., Rehman, A., Baili, J., & Gia, T. N. (2022). Heat and mass transfer analysis of nonlinear mixed convective hybrid nanofluid flow with multiple slip boundary conditions. Case Studies in Thermal Engineering, 32, 101893. https://doi.org/10.1016/j.csite.2022.101893 Impact factor: 4.724 27. Hussain, A., Sarwar, L., Rehman, A., Akbar, S., Gamaoun, F., Coban, H. H., ... & Alqurashi, M. S. (2022). Heat Transfer Analysis and Effects of (Silver and Gold) Nanoparticles on Blood Flow Inside Arterial Stenosis. Applied Sciences, 12(3), 1601. https://doi.org/10.3390/app12031601 Impact factor: 2.679. 28. Wang, F., Ahmad, S., Al Mdallal, Q., Alammari, M., Khan, M. N., & Rehman, A. (2022). Natural bio-convective flow of Maxwell nanofluid over an exponentially stretching surface with slip effect and convective boundary condition. Scientific Reports, 12(1), 1-14. https://doi.org/10.1038/s41598-022-04948-y Impact factor: 4.379 29. Coban, H. H., Rehman, A., & Mohamed, A. (2022). Analyzing the Societal Cost of Electric Roads Compared to Batteries and Oil for All Forms of Road Transport. Energies, 15(5), 1925. https://doi.org/10.3390/en15051925 Impact factor: 3.004 · 30. Saqlain, M., Wang, F., Anwar, M. I., Xia, W. F., Rehman, A., Gamaoun, F., & El-Shafay, A. S. (2022). Heat and mass transfer analysis of chemically reactive non-Newtonian fluid with the implementation of generalized Fourier’s and Fick’s laws over a vertical sheet. Waves in Random and Complex Media, 1-18. https://doi.org/10.1080/17455030.2022.2055204 Impact factor: 4.853. · 31. Coban, H. H., Rehman, A., & Mohamed, A. (2022). Technical and Economical Investigation of a Centralized and Decentralized Hybrid Renewable Energy System in Cadaado, Somalia. Processes, 10(4), 667. https://doi.org/10.3390/pr10040667 Impact factor: 2.847. · 32. Khan, A. A., Khan, M. N., Ahsan, N., Khan, M. I., Muhammad, T., & Rehman, A. (2022). Heat and mass transfer features of transient second-grade fluid flow through an exponentially stretching surface. Pramana, 96(2), 1-10. https://doi.org/10.1007/s12043-022-02300-7 Impact factor: 1.688 33. Haider, Q., Hussain, A., Rehman, A., Ashour, A., & Althobaiti, A. (2022). Mass and Heat Transport Assessment and Nanomaterial Liquid Flowing on a Rotating Cone: A Numerical Computing Approach. Nanomaterials, 12(10), 1700. https://doi.org/10.3390/nano12101700 Impact factor: 5.076 34. Coban, H. H., Rehman, A., & Mousa, M. (2022). Load Frequency Control of Microgrid System by Battery and Pumped-Hydro Energy Storage. Water, 14(11), 1818. https://doi.org/10.3390/w14111818 Impact factor: 3.103 35. Hussain A, Sarwar L, Rehman A, Al Mdallal Q, H. Almaliki A, El-Shafay A. S. (2022) “Mathematical analysis of hybrid mediated blood flow in stenosis narrow arteries” Scientific reports (Accepted Manuscript) Impact factor: 4.379
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