Published on by Math Scientist

Dr. A. Eswari | Differential Equation | Editorial Board Member

Assistant Professor | HC&RI, Tamil Nadu Agricultural University, Periyakulam | India

Dr. A. Eswari is a researcher in applied mathematics with strong expertise in mathematical modeling, reaction–diffusion systems, biosensor modeling, and heat and mass transfer analysis. Her doctoral work focused on deriving analytical solutions for systems of coupled reaction–diffusion equations in microelectrodes, contributing to advancements in electrochemical modeling. Over the years, she has expanded her research into interdisciplinary areas including thermal engineering, enzyme kinetics, nanofluid dynamics, and agricultural economics.

Her research output reflects a blend of theoretical rigor and real-world application, especially in chemical kinetics, thermal systems, and biosensor technology. She has published in reputable international journals and edited volumes, collaborating with researchers across mathematics, engineering, and applied sciences. Her contributions include analytical methods for nonlinear differential equations, studies on temperature-dependent thermal conductivity, and modeling of biological and industrial processes.

Dr. Eswari has also served in various academic and research roles across engineering and agricultural institutions, contributing to teaching, mentoring, and curriculum development. Her achievements include multiple merit awards for academic excellence at undergraduate, postgraduate, and M.Phil. levels.

With publications spanning over a decade, Dr. Eswari continues to work in applied mathematical analysis, focusing on deriving analytical and semi-analytical solutions for complex physical, chemical, and biological systems.

Profile: Google Scholar

Featured Publications

  1. Ananthi, S. P., Manimozhi, P., Praveen, T., Eswari, A., & Rajendran, L. (2013). Mathematical modeling and analysis of the kinetics of thermal inactivation of enzyme. International Journal of Engineering Mathematics, 2013(1), Article 132827. (Citations: 7)

  2. Meena, A., Eswari, A., & Rajendran, L. (2011). Mathematical modeling of biosensors: Enzyme–substrate interaction and biomolecular interaction. In New perspectives in biosensors technology and applications (Vol. 1). (Citations: 7)

  3. Saravanakumar, S., Eswari, A., Makinde, O. D., Anbazhagan, N., Joshi, G. P., et al. (2023). Analysis of temperature-dependent thermal conductivity and fin efficiency: Direct Akbari–Ganji method. Case Studies in Thermal Engineering, 51, Article 103627. (Citations: 6)

  4. Srinivasan, M., Raj, S. V., & Eswari, A. (2018). Demand and supply analysis of roundwood in India. Madras Agricultural Journal, 105(1–3), 1. (Citations: 6)

  5. Eswari, A., Maragatham, L., Anbazhagan, N., Joshi, G. P., & Cho, W. (2024). Analytical investigation of heat and mass transfer in MHD nanofluid flow past a moving vertical plate. Case Studies in Thermal Engineering, 60, Article 104642. (Citations: 5)

A. Eswari | Differential Equation | Editorial Board Member

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