Zhejiang Normal University | China
AUTHOR PROFILE
EARLY ACADEMIC PURSUITS
Dr. Muhammad Waleed Ahmed Khan has established a solid academic foundation in the field of Applied Mathematics. His academic journey began with a B.Sc. in Mathematics and Physics from Abdul Wali Khan University, Mardan, KPK, Pakistan, completed in 2011. He then pursued an M.Sc. in Applied Mathematics at Quaid-I-Azam University Islamabad, which he completed in 2014. Dr. Khan continued at the same university for his M.Phil. in Applied Mathematics, finishing in 2016. His academic dedication culminated in a Ph.D. in Applied Mathematics from Quaid-I-Azam University Islamabad, awarded in 2020, with a thesis titled “Nonlinear Flows with Entropy Generation.”
PROFESSIONAL ENDEAVORS
Dr. Khan's professional career is marked by a blend of teaching and research roles. He is currently a Postdoctoral Fellow at Zhejiang Normal University, a position he has held since January 2023. Prior to this, he served as a Lecturer in the Higher Education Department of Khyber Pakhtunkhwa, Pakistan, from October 2018 to October 2022. During his Ph.D. studies, Dr. Khan also worked as a Research Associate at the Department of Mathematics, Quaid-I-Azam University, from October 2016 to October 2020. His experience spans over seven years, combining rigorous academic research with practical teaching.
CONTRIBUTIONS AND RESEARCH FOCUS
Dr. Khan’s research interests are diverse and centered around applied mathematics, with a particular focus on nonlinear flows. His expertise includes Artificial Neural Networking, Cattaneo-Christov heat flux, Oldroyd-B fluid model, and heat and mass transfer in both Newtonian and non-Newtonian fluids. He is adept at solving nonlinear differential equations and computational fluid dynamics, utilizing techniques such as the shooting method and series solutions for nonlinear problems. His work on nonlinear flows has significantly contributed to the understanding and modeling of complex fluid dynamics.
IMPACT AND INFLUENCE
Dr. Khan’s research has had a notable impact on the field of applied mathematics and fluid mechanics. His contributions to the study of nonlinear flows and entropy generation have provided deeper insights into the behavior of fluids under various conditions. He has presented his findings at numerous international conferences, including the 32nd Texas Symposium on Relativistic Astrophysics in Shanghai, China, and the BGI International Youth Symposium in Shenzhen, China. His work has influenced both theoretical and computational approaches in the field, paving the way for future research in these areas.
ACADEMIC CITATIONS
Dr. Khan’s scholarly work has been widely recognized and cited in the academic community. His research on nonlinear flows and related areas has been published in several high-impact journals and conference proceedings. His contributions have been acknowledged through merit scholarships and awards, including a Merit Scholarship during his Ph.D. from the Khyber Pakhtunkhwa Chief Minister Endowment Fund, and another during his M.Phil. from Quaid-I-Azam University Islamabad. He has also been an active member of various academic societies and organizing committees, further contributing to the dissemination of knowledge in his field.
LEGACY AND FUTURE CONTRIBUTIONS
Dr. Khan’s legacy in applied mathematics is characterized by his innovative research and commitment to advancing the field of fluid mechanics. His future contributions are anticipated to delve deeper into the complexities of nonlinear flows, exploring new models and computational techniques to address emerging challenges in fluid dynamics. His current postdoctoral research at Zhejiang Normal University will likely continue to enhance our understanding of nonlinear flows and their applications in various scientific and engineering domains.
NONLINEAR FLOWS
Throughout his career, Dr. Khan has extensively studied nonlinear flows, focusing on their behavior and the entropy generation associated with them. His research has provided valuable insights into the dynamics of both Newtonian and non-Newtonian fluids, particularly in the context of heat and mass transfer. By applying advanced mathematical models and computational techniques, Dr. Khan has been able to predict and analyze the complex behaviors of nonlinear flows. His work not only contributes to the theoretical foundations of fluid mechanics but also has practical implications for engineering and industrial applications, where understanding nonlinear flows is crucial for optimizing processes and designing efficient systems.
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