Dr. Saqib Murtaza | Nanofluid Award | Best Researcher Award
Dr. Saqib Murtaza, King Mongkut’s University of Technology Thonburi, Thailand
Dr. Saqib Murtaza, is a mathematician specializing in fluid dynamics, heat transfer, and nanotechnology. Currently a researcher at King Mongkutās University of Technology Thonburi, Thailand, his research intersects fractional calculus and mathematical modeling. Dr. Murtaza has co-supervised five M.Sc. theses on topics such as Maxwell nanofluids and fractal-fractional models. He has delivered talks at international conferences like INCSC 2023 in Turkey and Empowering a Global Revolution through Operations Research in Thailand. With over 18 published papers in reputable journals, his work advances the mathematical applications in materials science and fluid dynamics. His contributions to scientific research make him a valuable figure in the mathematical modeling of complex physical systems.
Professional Profile:
Suitability for the Best Researcher Award:
Dr. Saqib Murtaza is an exceptional candidate for the “Best Researcher Award,” showcasing a blend of academic excellence, innovative research, and significant contributions to the field of applied mathematics, particularly in the areas of fluid dynamics, heat transfer, and nanofluids. Below is a summary of his qualifications and a conclusion regarding his suitability for the award:
šEducation
Dr. Saqib Murtaza holds a Ph.D. in Mathematics from King Mongkutās University of Technology Thonburi (2020ā2023), where he focused on fractal-fractional modeling in heat transfer. His M.Sc. in Mathematics from City University of Science & I.T. (2017ā2019) explored the time fractional analysis of generalized nanofluids in rotating frames. Additionally, he completed his earlier M.Sc. and B.Sc. in Mathematics at City University of Science & I.T. and the University of Peshawar, respectively. He also earned a B.Ed. degree from City University of Science & I.T. in 2016, reflecting his interest in education alongside research. His academic journey has fostered a robust understanding of fluid dynamics and mathematical modeling, fueling his contributions to advanced research in nanofluid dynamics and heat transfer models.
š¢Experience
Dr. Murtaza has a diverse academic and research background. As a Ph.D. researcher at King Mongkutās University of Technology Thonburi, he has focused on mathematical modeling in heat transfer and fluid dynamics. During his research tenure, he visited the University of Naples Federico II in Italy in 2023 to engage in modeling and data calibration in vegetation pattern dynamics. In addition to his research, Dr. Murtaza has co-supervised five M.Sc. theses on topics like Maxwell nanofluids and fractal-fractional models. He has actively contributed to scientific discourse through invited talks at prestigious international conferences, including INCSC 2023 in Turkey and Empowering a Global Revolution through Operations Research symposium in Thailand. His work continues to inspire new directions in nanotechnology and fluid dynamics.
š Awards and Honors
Dr. Murtaza has earned recognition for his contributions to mathematics and fluid dynamics. Notably, his work in heat transfer and nanofluid dynamics has been featured in major journals such as Scientific Reports and IEEE Access. His research and dedication have earned him invitations to speak at international platforms like the INCSC 2023 conference in Turkey. His ongoing contributions to mathematical modeling in fluid mechanics and nanotechnology also reflect his growing influence in these fields. Dr. Murtazaās academic excellence, showcased through over 18 published research articles, continues to distinguish him in the global scientific community, earning him accolades from peers and scholars alike. His research is paving the way for innovations in the mathematical applications of nanotechnology and materials science.
š¬Research Focus
Dr. Murtaza’s research focuses on fractional calculus, fluid mechanics, and nanofluid dynamics. His work uses mathematical modeling to explore heat and mass transfer processes in complex systems, such as fractal-fractional models for nanofluids. He applies these mathematical techniques to real-world challenges in heat transfer and fluid dynamics. His research extends to studying nanofluid dynamics and developing models to optimize energy efficiency in various applications. With his expertise, Dr. Murtaza aims to advance the mathematical foundation of nanotechnology and heat transfer models, contributing to the development of energy-efficient materials and systems. His work in this field promises to lead to innovations that merge mathematics, engineering, and materials science.
Publication Top Notes:
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Heat transfer analysis of generalized Jeffery nanofluid in a rotating frame: AtanganaāBaleanu and CaputoāFabrizio fractional models
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Cited by: 51
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Parametric simulation of hybrid nanofluid flow consisting of cobalt ferrite nanoparticles with second-order slip and variable viscosity over an extending surface
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Cited by: 49
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Analysis and numerical simulation of fractal-fractional order non-linear couple stress nanofluid with cadmium telluride nanoparticles
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Cited by: 45
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Fractional mathematical modeling of malaria disease with treatment & insecticides
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Cited by: 44
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AtanganaāBaleanu fractional model for the flow of Jeffrey nanofluid with diffusion-thermo effects: applications in engine oil
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Cited by: 41
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