Ms. Promasree Majumdar - Numerical modelling - Best Researcher Award
Indian Institute of Technology - India
Author Profile
Early Academic Pursuits
Ms. Promasree Majumdar embarked on her academic journey with a strong foundation in engineering, obtaining a Bachelor's degree in Technology from the prestigious National Institute of Technology Patna. Excelling in her undergraduate studies with an impressive CGPA of 8.34, she demonstrated a keen interest in mechanical engineering from an early stage. Her academic prowess further blossomed as she pursued a Master's degree in Technology from the Indian Institute of Space Science and Technology, where she achieved an exceptional CGPA of 9.81, reflecting her dedication and commitment to academic excellence. These formative years laid the groundwork for her future endeavors in research and academia.
Endeavors and Contributions
Ms. Promasree Majumdar's research journey is characterized by a diverse array of contributions spanning multiple disciplines within mechanical engineering. Her research endeavors have primarily focused on cutting-edge topics such as microfluidics, electromagnetohydrodynamics, and transport through porous media. Through her meticulous work, she has made significant strides in understanding complex phenomena at the intersection of fluid mechanics and applied physics.
One of her notable contributions includes the development of a multiscale approach to studying electromagnetohydrodynamic (EMHD) flow through porous media, as evidenced by her publication in the Journal of Applied Physics, where her work was selected as Editor's Pick. Additionally, her research on the effect of anisotropy on the permeability of electroosmotic flow through porous media has garnered attention for its innovative approach and practical implications in various engineering applications.
Furthermore, Promasree has delved into interdisciplinary research by venturing into biomechanics, specifically in the development and biomechanical testing of full-scale human brain simulants. This endeavor showcases her versatility and willingness to explore new frontiers in research, bridging the gap between engineering and healthcare.
Accolades and Recognition
Ms. Promasree Majumdar's exemplary contributions to the field of mechanical engineering have not gone unnoticed, as evidenced by the numerous accolades and recognition she has received throughout her academic career. Her selection for the Research Excellence Travel Award (RETA) Scholarship from IIT Delhi underscores her outstanding research achievements and the recognition of her peers and mentors within the academic community. This prestigious award serves as a testament to her dedication, perseverance, and exceptional talent in advancing scientific knowledge through research.
Impact and Influence
Ms. Promasree's research has the potential to revolutionize various fields, from enhancing our understanding of fluid dynamics in porous media to contributing to the development of advanced biomedical devices. By addressing fundamental questions and pushing the boundaries of scientific knowledge, her work has the potential to impact diverse industries and improve technological innovations in areas such as microfluidics, electromagnetohydrodynamics, and biomedical engineering.
Legacy and Future Contributions
As Promasree Majumdar continues her academic journey as a research scholar at the Indian Institute of Technology Delhi, her legacy is already being shaped by her groundbreaking contributions to the field of mechanical engineering. Looking ahead, she is poised to make even greater strides in research, further solidifying her reputation as a trailblazer in her field. With her passion for discovery, interdisciplinary approach, and commitment to excellence, Promasree is well-positioned to leave a lasting impact on academia and beyond, shaping the future of engineering and scientific inquiry.
Notable Publication
- Development and Biomechanical Testing of Full-Scale Human Brain Simulant (2024)
- Effect of Anisotropy on the Permeability of Electroosmotic Flow Through Porous Media: Multiscale Approach (2024)
- Electromagnetohydrodynamic (EMHD) flow through porous media—Multiscale approach (1), 2023
- Multiscale modeling of electromagnetohydrodynamic flow through porous media (1), 2023