University of Ulsan - South Korea
AUTHOR PROFILE
EARLY ACADEMIC PURSUITS
Sadia Siddiqa embarked on a journey of academic excellence, culminating in a Ph.D. in Computational Fluid Dynamics (CFD) from the COMSATS Institute of Information Technology, Pakistan. Her research during her Ph.D. focused on the convection flow of viscous fluid, showcasing her early dedication to understanding complex fluid dynamics phenomena.
PROFESSIONAL ENDEAVORS
Sadia Siddiqa's career is marked by significant contributions to academia and research. From her role as an Assistant Professor at COMSATS University Islamabad to her tenure as a Research Assistant Professor at the University of Ulsan, South Korea, Sadia has demonstrated a commitment to advancing knowledge in the field of mathematics and fluid dynamics.
CONTRIBUTIONS AND RESEARCH FOCUS
Sadia's research interests encompass a broad spectrum of topics within computational fluid dynamics, including external and internal flows, turbulence modeling, renewable energy applications, and artificial intelligence. Her extensive research portfolio reflects her dedication to addressing pressing challenges in fluid mechanics and renewable energy through innovative computational approaches.
IMPACT AND INFLUENCE
Sadia Siddiqa's research has made a significant impact on the scientific community, as evidenced by her numerous publications in reputable journals and conference proceedings. With a substantial number of citations and a commendable H-index, Sadia's work has been widely recognized and cited by her peers, indicating its influence and importance in the field.
ACADEMIC CITES
Sadia's research contributions have been widely cited within the academic community, reflecting the significance and relevance of her work in computational fluid dynamics and renewable energy. Her impressive publication record and citation metrics underscore her status as a respected authority in her field.
LEGACY AND FUTURE CONTRIBUTIONS
Sadia Siddiqa's vision for the future is centered around continued excellence in research and education. Through her ongoing research endeavors and commitment to mentorship, Sadia aims to contribute to the advancement of knowledge in computational fluid dynamics and renewable energy, leaving a lasting legacy of innovation and impact in her field.
NOTABLE PUBLICATION
Effects of heat source and sink on entropy generation and MHD natural convection of Al2O3-Cu/water hybrid nanofluid filled with square porous cavity 2018 (175)
Heat source/sink effects on a hybrid nanofluid-filled porous cavity 2017 (109)
Numerical solutions of nanofluid bioconvection due to gyrotactic microorganisms along a vertical wavy cone 2016 (95)
Numerical treatments to analyze the nonlinear radiative heat transfer in MHD nanofluid flow with solar energy 2020 (67)
Periodic magnetohydrodynamic natural convection flow of a micropolar fluid with radiation 2017 (65)