Dr. M. B. Arain is a distinguished researcher and academic in the field of mathematical fluid dynamics and computational modeling, currently serving as a Senior Lecturer at the College of Aerospace Engineering, Nanjing University of Aeronautics and Astronautics (NUAA), China. He earned his Ph.D. in Mathematics from the International Islamic University Islamabad (IIUI), Pakistan, where his doctoral research focused on the transport of motile gyrotactic microorganisms in viscoelastic fluids. His academic background is complemented by postgraduate qualifications in education and extensive teaching experience across Pakistan and China. Dr. Arain’s research integrates artificial neural networks (ANNs), nanofluids, heat and mass transfer, and electro-magneto-hydrodynamics, addressing complex fluid flow problems with innovative computational techniques. His work has contributed to high-impact areas such as bio-convective nanofluid systems, acoustic wave-driven bubble dynamics, and intelligent predictive modeling for nonlinear phenomena. He has published over 35 SCI/SCI-E indexed papers in renowned journals including Physics of Fluids, Engineering Applications of Artificial Intelligence, and Case Studies in Thermal Engineering, with an H-index of 15 and over 850 citations on Google Scholar. His research excellence is recognized through his role as a corresponding author on several high-impact publications and through prestigious projects funded by NUAA, the National Natural Science Foundation of China, and King Khalid University, Saudi Arabia. A recipient of the HEC Fulbright PhD Scholarship, Dr. Arain continues to advance the frontiers of computational fluid mechanics, fostering cross-disciplinary collaboration in applied mathematics and aerospace sciences.
Profiles: Orcid | Google Scholar
Featured Publications
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Bhatti, M. M., Arain, M. B., Zeeshan, A., Ellahi, R., & Doranehgard, M. H. (2022). Swimming of gyrotactic microorganism in MHD Williamson nanofluid flow between rotating circular plates embedded in porous medium: Application of thermal energy storage. Journal of Energy Storage, 45, 103511.
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Zhang, L., Arain, M. B., Bhatti, M. M., Zeeshan, A., & Hal-Sulami, H. (2020). Effects of magnetic Reynolds number on swimming of gyrotactic microorganisms between rotating circular plates filled with nanofluids. Applied Mathematics and Mechanics, 41(4), 637–654.
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Shaheen, S., Arain, M. B., Nisar, K. S., Albakri, A., Shamshuddin, M. D., & Mallawi, F. O. (2023). A case study of heat transmission in a Williamson fluid flow through a ciliated porous channel: A semi-numerical approach. Case Studies in Thermal Engineering, 41, 102523.
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Arain, M. B., Bhatti, M. M., Zeeshan, A., Saeed, T., & Hobiny, A. (2020). Analysis of Arrhenius kinetics on multiphase flow between a pair of rotating circular plates. Mathematical Problems in Engineering, 2020(1), 2749105.
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Fatima, N., Belhadj, W., Nisar, K. S., Alaoui, M. K., Arain, M. B., & Ijaz, N. (2023). Heat and mass transmission in a boundary layer flow due to swimming of motile gyrotactic microorganisms with variable wall temperature over a flat plate. Case Studies in Thermal Engineering, 45, 102953.