Assoc. Prof. Dr. Mohammed Shamshuddin | Fluid Mechanics | Editorial Board Member

Vaagdevi College of Engineering | India

Assoc. Prof. Dr. Mohammed Shamshuddin is a distinguished researcher in computational fluid dynamics with strong expertise in micro and nano fluids, hybrid and ternary nanofluids, magnetohydrodynamics, and advanced numerical simulation. His work focuses on modeling heat transfer, thermal radiation, entropy generation, and rheological behavior of complex nanoliquids across engineering applications such as aerospace thermal systems, drilling fluid enhancement, porous media transport, solar collectors, and bioconvective flows. He has produced influential studies on magnetized hybrid nanofluids, thermal optimization in solar systems, radiative micropolar flows, and magnetic nanopolymer fabrication, contributing significantly to energy efficiency, sustainable fluid systems, and next-generation heat management technologies. With numerous high-impact publications and strong citation performance, he is recognized for advancing semi-analytical and numerical methods, including HAM, Galerkin FEM, and homotopic simulations. His research profile reflects deep analytical capability, innovative modeling approaches, and sustained contributions to fluid mechanics and applied thermal sciences.

Profile: Google Scholar

Featured Publications

Salawu, S. O., Obalalu, A. M., & Shamshuddin, M. D. (2023). Nonlinear solar thermal radiation efficiency and energy optimization for magnetized hybrid Prandtl–Eyring nanoliquid in aircraft. Arabian Journal for Science and Engineering, 48(3), 3061–3072.

Bég, O. A., Espinoza, D. E. S., Kadir, A., Shamshuddin, M. D., & Sohail, A. (2018). Experimental study of improved rheology and lubricity of drilling fluids enhanced with nano-particles. Applied Nanoscience, 8(5), 1069–1090.

Al-Kouz, W., Abderrahmane, A., Shamshuddin, M. D., Younis, O., Mohammed, S., & others. (2021). Heat transfer and entropy generation analysis of water–Fe₃O₄/CNT hybrid magnetic nanofluid flow in a trapezoidal wavy enclosure containing porous media with the Galerkin finite element method. The European Physical Journal Plus, 136(11), 1–23.

Shamshuddin, M. D., Akkurt, N., Saeed, A., & Kumam, P. (2023). Radiation mechanism on dissipative ternary hybrid nanoliquid flow through rotating disk encountered by Hall currents: HAM solution. Alexandria Engineering Journal, 65, 543–559.

Jamshed, W., Şirin, C., Selimefendigil, F., Shamshuddin, M. D., Altowairqi, Y., & others. (2021). Thermal characterization of coolant Maxwell-type nanofluid flowing in parabolic trough solar collector (PTSC) used inside solar-powered ship application. Coatings, 11(12), 1552.