Mohammed Shamshuddin | Fluid Mechanics | Editorial Board Member

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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.

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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.

Sudarmozhi K | Fluid Dynamics | Women Researcher Award

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Dr. Sudarmozhi K | Fluid Dynamics | Women Researcher Award

Asst Prof, Saveetha School of Engineering, India

Dr. Sudarmozhi K is a Ph.D. candidate in Mathematics at SIMATS Engineering, Chennai (viva voce completed in November 2024). He holds an M.Phil. from Prist University (2014) and an M.Sc. from Cauvery College for Women (2011). With over 13 years of teaching and research experience, Dr. Sudarmozhi has presented 16 conferences at prestigious institutions like IIT, NIT, and VIT. He has published 25 Scopus-indexed papers (16 in Q1 journals) and completed 110 workshops and seminars. His research interests include Fluid Dynamics, Heat and Mass Transfer, and Maxwell Fluid Flow. 🧑‍🏫📚🔬

Publication Profile

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Academic Background 🎓

Dr. Sudarmozhi K is a dedicated scholar currently pursuing his Ph.D. in Mathematics at SIMATS Engineering, Chennai, with his viva voce completed in November 2024. He earned his M.Phil. in Mathematics from Prist University in 2014, securing a B grade. Dr. Sudarmozhi also holds an M.Sc. in Mathematics (70%) from Cauvery College for Women, Trichy (2011) and a B.Sc. in Mathematics (72%) from Immaculate College for Women, Kallakuruchi (2009). His strong educational foundation forms the backbone of his successful career in mathematics research and teaching. 📚🧑‍🏫

Teaching Experience 🧑‍🏫

Dr. Sudarmozhi K has extensive teaching experience spanning over a decade. He began his career as a Lecturer in Mathematics at Immaculate College for Women and Sarada Maha Vidhyalayam Arts College, before becoming an Assistant Professor at Kumara Rani Meena Muthiah College of Arts and Sciences, where he taught for four years. He further served as a Lecturer at Little Flower Polytechnic College and later took up the role of Assistant Professor at Chennai Institute of Technology. From Feb 2022 to November 2024, he was a full-time research scholar at Saveetha School of Engineering, furthering his research while teaching. 📚✨

Research Areas 🔬

Dr. Sudarmozhi K specializes in several key areas of Mathematics and Applied Physics. His primary research interests include Fluid Dynamics, where he investigates the flow and behavior of fluids under various conditions. He is also focused on Heat and Mass Transfer, exploring the transfer processes in different systems. Additionally, Dr. Sudarmozhi works on Maxwell Fluid Flow, studying the characteristics of non-Newtonian fluids. Another area of his expertise is Boundary Value Problems, where he applies mathematical techniques to solve complex real-world problems. His research contributes significantly to both theoretical and applied sciences. 🌊🔥📊

Publication Top Notes

  • Double diffusion in a porous medium of MHD Maxwell fluid with thermal radiation, heat generation, and chemical reactionCited by 36 – 2023 📚🌡️
  • Heat and mass transport of MHD viscoelastic fluid flow towards a permeable stretching cylinderCited by 18 – 2023 🌬️🌀
  • Significance of heat generation and impact of suction/injection on Maxwell fluid over a horizontal plate by the influence of radiationCited by 17 – 2023 🔥💧
  • Magneto radiative and heat convective flow boundary layer in Maxwell fluid across a porous inclined vertical plateCited by 16 – 2023 🌫️🔥
  • Investigation of melting heat effect on fluid flow with brownian motion/thermophoresis effects in the occurrence of energy on a stretching sheetCited by 13 – 2024 ❄️⚙️
  • Thermofluid of Maxwellian type past a porous stretching cylinder with heat generation and chemical reactionCited by 9 – 2023 🌪️🧪
  • Significance of heat generation in MHD channel flow of a Maxwell fluid with heat suction and blowing effectsCited by 7 – 2024 💨🔥
  • A steady flow of MHD Maxwell viscoelastic fluid on a flat porous plate with the outcome of radiation and heat generationCited by 6 – 2023 🔥💧
  • Exploring the Steady Flow of a Viscoelastic Fluid Passing over a Porous Perpendicular Plate Subjected to Heat Generation and Chemical ReactionsCited by 5 – 2024 🌡️🌀
  • Heat generation in dual convection Non-Newtonian MHD Darcy’s flow with Soret and Dufour effectsCited by 5 – 2024 🔥🌬️
  • Effects of porous medium in MHD flow of Maxwell fluid with Soret/Dufour impactsCited by 5 – 2024 💨⚡
  • Viscoelastic fluid flow over a horizontal flat plate with various boundary slip conditions and suction effectsCited by 5 – 2023 🌊💨
  • Effect of heat generation and activation energy on MHD Maxwell fluid with multiple slipsCited by 4 – 2024 🔥⚡
  • Revolutionizing energy flow: Unleashing the influence of MHD in the presence of free convective heat transfer with radiationCited by 4 – 2024 🔥💨
  • Newtonian heating effect across the moving horizontal plate with chemical reaction of MHD Maxwell fluidCited by 4 – 2024 🌡️🔬
  • Exploring thermal diffusion and diffusion-thermal energy in MHD Maxwell fluid flow around a stretching cylinderCited by 4 – 2023 🔥🌬️
  • Heat transfer enrichment in magnetohydrodynamic cylindrical flow of Maxwell fluid with thermal radiation and Stefan blowing effectsCited by 4 – 2023 🔥🌬️
  • Viscoelastic fluid flow on channel in porous medium with Soret and Dufour along with the effect of activation energy and suction and blowingCited by 3 – 2024 💧🌪️
  • Chemical reaction effect across the moving flat plate with heat generation and MHD flow of Maxwell fluid with viscous dissipationCited by 2 – 2025 💨🔥
  • Viscoelasticity of Maxwell fluid in a permeable porous channelCited by 1 – 2024 🌊💨