Dr. Mangala Kandagal | Fluid Mechanics | Best Researcher Award
Dr. Mangala D. Kandagal, Sharnbasva University Kalaburagi, India
Dr. Mangala D. Kandagal is an Assistant Professor in the Mathematics Department at Sharnbasva University, Kalaburagi. With a background in Fluid Mechanics, she combines academic rigor with significant research contributions, particularly in fluid dynamics and heat transfer phenomena.
Profile
Suitability For The Award:
Dr. Mangala Kandagal is an accomplished researcher and academician with a strong background in fluid dynamics, heat transfer, and applied mathematics. Her extensive experience in teaching, research, and academic contributions make her a suitable candidate for the Best Researcher Award.
Education:
Dr. Kandagal holds an M.Sc., B.Ed., and Ph.D. from Sharnbasva University, Kalaburagi. Her academic journey includes a Bachelor’s degree from Gulbarga University and a Master’s degree from Sharanbasveshwar Science College, where she achieved First Class distinctions throughout her education.
Research Focus:
Her research centers on Fluid Mechanics, with a particular focus on the effects of natural convection and magneto-hydrodynamic flows in vertical channels. Her studies delve into heat generation, absorption, and multifluid flow characteristics.
Professional Journey:
Dr. Kandagal’s teaching career began at Sharnbasveshwar Science College, where she taught B.Sc. and M.Sc. courses from 2014 to 2017. She has been with Sharnbasva University, Kalaburagi, since 2017, where she continues to educate and inspire students in advanced mathematical concepts.
Honors & Awards:
She has been recognized with the “Young Researcher Award” at an international level for her contributions to digital education, awarded by the Shri Paramhans Education and Research Foundation Trust.
Publications Noted & Contributions:
Dr. Kandagal’s notable publications include studies on multifluid flow, heat generation, and magneto-hydrodynamic effects, featured in high-impact journals like the Journal of Heat Transfer Wiley and Case Studies in Thermal Engineering. Her research significantly contributes to understanding complex fluid dynamics and heat transfer mechanisms.
- An Investigation of the Heat and Mass Transfer Effects in Vertical Channels with Immersible Fluid Flow Through a Porous Matrix
- Journal: ZAMM – Journal of Applied Mathematics and Mechanics / Zeitschrift für Angewandte Mathematik und Mechanik
- Date: August 5, 2024
- DOI: 10.1002/zamm.202300998
- Contributors: Mangala Kandagal; Ramesh Kempepatil
- Influence of Heat Generation/Absorption on Mixed Convection Flow Field with Porous Matrix in a Vertical Channel
- Journal: Case Studies in Thermal Engineering
- Year: 2023
- DOI: 10.1016/j.csite.2023.103049
- EID: 2-s2.0-85160398917
- Contributors: Thanesh Kumar, K.; Kalyan, S.; Kandagal, M.; Tawade, J.V.; Khan, U.; Eldin, S.M.; Singh Chohan, J.; Elattar, S.; Abed, A.M.
- Heat Generation and Assimilation-MHD Model for Convective Flow of Two Immiscible Fluids in a Vertical Channel
- Year: 2023 (Preprint)
- DOI: 10.21203/rs.3.rs-3618218/v1
- PPR: PPR763023
- Contributors: Kandagal M; Kempepatil R
- Effect of Two Immiscible Multifluids Flow on Internal Heat Generation or Absorption in a Vertical Channel in the Presence of Concentration
- Journal: Heat Transfer
- Year: 2021
- DOI: 10.1002/htj.22238
- EID: 2-s2.0-85110258047
- Contributors: Kandagal, M.; Kalyan, S.
Research Timeline:
Her research trajectory includes her Ph.D. thesis on natural convection in magneto-hydrodynamic flows, with ongoing and recent contributions to the field, including a 2023 international conference paper on MHD models.
Collaborations and Projects:
Dr. Kandagal collaborates with researchers like Shreedevi Kalyan and Ramesh Kempepatil on various projects focusing on fluid dynamics and heat transfer. Her work includes joint research on multifluid flows and MHD models in vertical channels.
Conclusion:
Dr. Mangala Kandagal’s extensive teaching experience, significant research contributions, published works in reputable journals, and recognition through awards make her an outstanding candidate for the Best Researcher Award. Her research not only advances the understanding of complex fluid dynamics but also contributes to the academic community through education and leadership. Her achievements demonstrate a strong alignment with the qualities sought in a recipient of this prestigious award.