JNTU Faculty ID:4009-240906-121822
Educational Background:
Ph.D.: Vellore Institute of Technology, 2024.
M.Sc.: Yogi Vemana University, 2017.
B.Sc.: Yogi Vemana University, 2015
Research Network:
H-Index: 04
I-10 Index: 00
ORCID LINK:
https://orcid.org/0000-0002-3250-0259
Google Scholar profile link:
https://scholar.google.com/citations?hl=en&user=v67YMysAAAAJ&view_op=list_works&sortby=pubdate
Scopus Author ID: 58202441900
Research Interest:
My area of research is polymer, magnetic materials, MOFs and energy storage materials. In Ph.D. I have worked in synthesis, characterization and selective applications of multicomponent inorganic metal-nonmetal nano/micro composites. Synthesized materials were used
- In solar flat plate collector to enhance the absorption efficiency
- with paint in house prototype to increase the thermal comfort
- Thermo-Oxidative Degradation of Polyethylene, Poly (vinyl chloride), and Polystyrene
Research Interest:
Time fractional differential equations are the focus of my study. Caputo derivative, Caputo-Fabrizio derivative, and Atangana-Baleanu-Caputo derivative are used in the natural decomposition method. The evolution of various time and space fractional differential equations and its applications are of ongoing interest. “Approximate solutions for time fractional differential equations” is the title of my doctoral thesis.
Professional Experience:
Assistant Professor – BVRIT, Narsapur
(2024- Till now)
Guest Faculty: APJ ABDUL KALAM IIIT ONGOLE, RGUKT, AP. (2018-2019)
- Pavani, K., Raghavendar, K., & Aruna, K. (2024). Solitary wave solutions of the time fractional Benjamin Bona Mahony Burger equation. Scientific Reports, 14(1), 14596. https://doi.org/10.1038/s41598-024-65471-w
- Pavani, K., Raghavendar, K., & Aruna, K. (2024). An Efficient Technique to Study Time Fractional Extended Fisher-Kolmogorov Equation. Contemporary Mathematics, 1137-1153. https://doi.org/10.37256/cm.5220242433
- Pavani, K., Raghavendar, K., & Aruna, K. (2024). Soliton solutions of the time-fractional Sharma–Tasso–Olver equations arise in nonlinear optics. Optical and Quantum Electronics, 56(5), 748. https://doi.org/10.1007/s11082-024-06384-w
- Pavani, K., & Raghavendar, K. (2024). A novel technique to study the solutions of time fractional nonlinear smoking epidemic model. Scientific Reports, 14(1), 4159. https://doi.org/10.1038/s41598-024-54492-0
- Pavani, K., & Raghavendar, K. (2024). A novel method to study time fractional coupled systems of shallow water equations arising in ocean engineering. AIMS Mathematics, 9(1), 542-564.
- Pavani, K., & Raghavendar, K. (2023). Approximate solutions of time-fractional Swift–Hohenberg equation via natural transform decomposition method. International Journal of Applied and Computational Mathematics, 9(3), 29. https://doi.org/10.1007/s40819-023-01493-8
- Koppala, P., & Kondooru, R. (2022). An efficient technique to solve time-fractional Kawahara and modified Kawahara equations. Symmetry, 14(9), 1777. https://doi.org/10.3390/sym14091777
No. of International Conferences presented/Participated | No. of National Conferences/Seminars presented/Participated | No. of Training/FDP programs |
2 | 00 | 5 |
