Dr. Shamadhani Begum | Fluid Simulation | Best Researcher Award

Dr. Shamadhani Begum | Fluid Simulation | Assistant Professor At Sri Krishna College Of Engineering And Technology | India

Dr. Shamadhani Begum A is an accomplished academician and researcher in the field of Mathematics, recognized for her strong expertise in engineering mathematics, fluid dynamics, nanofluid convection, porous media flow, and magnetohydrodynamic numerical modelling, built through an outstanding academic record and a continually evolving research portfolio. Dr. Shamadhani Begum A earned her Bachelor of Science in Mathematics with distinction, followed by a Master of Science in Mathematics with excellent academic performance, later advancing her scholarly journey through an M.Phil. in Mathematics with a dissertation focused on buoyancy-driven and surface-tension-driven convection influenced by magnetic fields, and subsequently completing her Ph.D. in Mathematics with a thesis on mixed convection analysis in non-Darcy porous enclosures using copper-based nanofluids with actively moving horizontal walls. Professionally, she has contributed significantly to higher education through her tenure as an Assistant Professor, serving at reputed engineering institutions, where she taught a wide spectrum of mathematical subjects including Engineering Mathematics I–IV, Linear Algebra, Probability and Statistics, Discrete Mathematical Structures, Differential Equations, Graph Theory, Number Theory, and Probability and Random Processes. Her professional responsibilities include classroom teaching, academic mentoring, research supervision, and delivering mathematical foundations to engineering students while contributing to departmental growth. Dr. Shamadhani Begum A holds official guideship recognition for supervising Ph.D. scholars under Anna University, reflecting her academic credibility and commitment to advanced research. Her research interests include nanofluid convection, mixed convection phenomena, MHD flows, porous media heat transfer, numerical simulation, and computational modelling, supported by strong technical skills in MS Office, LaTeX, Axum, Tecplot, C, Visual Basic, Oracle, Fortran, and R. She has completed numerous certifications including multiple NPTEL Elite and Elite+Silver recognitions in advanced mathematical subjects and computational methods, AICTE-ATAL training programs, more than 30 Coursera certifications, and several Infosys Springboard courses, demonstrating her dedication to continuous learning. Her research contributions are well-recognized internationally, with publications in prestigious journals addressing complex heat transfer and fluid flow problems in porous cavities, nanofluids, and magnetically influenced convection phenomena. She has received notable honors such as being certified as an NPTEL Discipline Star and being awarded JRF and SRF under the Basic Scientific Research Fellowship by the University Grants Commission, New Delhi. Beyond academia, she actively participates as a life member of the Indian Society for Technical Education and serves as a reviewer for Web of Science–indexed journals. Altogether, Dr. Shamadhani Begum A exemplifies scholarly excellence, professional dedication, and impactful research contributions, advancing the mathematical understanding of heat and fluid flow systems while inspiring future researchers through her academic leadership.

Profile: Google Scholar

Featured Publications 

1. Begum, A. S., Nithyadevi, N., Oztop, H. F., & Abu-Hamdeh, N. Mixed convection analysis in heat transfer enhancement of a nanofluid-filled porous enclosure with various wall speed ratios. International Journal of Heat and Mass Transfer. (2017). Citations: 48

2. Begum, A. S., Nithyadevi, N., Oztop, H. F., & Al-Salem, K. Numerical simulation of MHD mixed convection in a nanofluid-filled non-Darcy porous enclosure. International Journal of Mechanical Sciences. (2017). Citations: 37

3. Nithyadevi, N., Begum, A. S., Oztop, H. F., & Al-Salem, K. Effects of inclination angle and non-uniform heating on mixed convection of a nanofluid-filled porous enclosure with active mid-horizontal moving wall. International Journal of Heat and Mass Transfer. (2017). Citations: 30

4. Nagarajan, N., Öztop, H. F., Begum, A. S., & Al-Salem, K. Numerical analysis of effect of magnetic field on combined surface tension and buoyancy driven convection in partially heated open enclosure. International Journal of Numerical Methods for Heat & Fluid Flow. (2015). Citations: 11

5. Nithyadevi, N., & Begum, A. S. Effect of magnetic field on mixed convection flow in a porous enclosure using nanofluids. International Journal of Applied and Computational Mathematics. (2017). Citations: 10

6. Nithyadevi, N., Begum, A. S., & Shankar, C. U. Buoyancy and thermocapillary driven flows in an open cavity with bottom heating and symmetrical cooling from sides. International Journal of Heat and Technology. (2015). Citations: 8

7. Begum, S., & Nithyadevi, N. Numerical study on the effect of magnetic field in a porous enclosure using nanofluid with mid-horizontal moving lid: Brinkman–Forchheimer extended Darcy model. Journal of Porous Media. (2018). Citations: 5