Dr. Muhammad Ramzan is an emerging researcher in fluid dynamics, specializing in fractional calculus, heat and mass transfer, and nanofluid flow modeling. With a Ph.D. in Mathematics from CASPAM, Bahauddin Zakariya University (BZU), Pakistan, his research spans advanced mathematical modeling of unsteady incompressible flows, magnetohydrodynamics (MHD), and hybrid fractal-fractional derivatives in heat transfer. Dr. Ramzan has published numerous high-impact journal articles and is actively involved in academic teaching, research collaboration, and postdoctoral pursuits in applied mathematics and fluid mechanics.
Professional Profile ,
Orcid
Education 🎓📚
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Ph.D. in Mathematics (2017–2024)
CASPAM, Bahauddin Zakariya University (BZU), Multan, Pakistan
Thesis: Some unsteady incompressible flows for thermal and mass diffusion through different regimes
Supervisor: Prof. Dr. Mudassar Nazar
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M.Phil. in Mathematics
Thesis: MHD flow of generalized second grade fluid through an oscillating rectangular duct
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Bachelor’s in Mathematics
Shanxi University, China
Professional Experience 🧑🏫💼
Visiting Lecturer
Emerson University, Multan (Feb 2023 – Present)
Bahauddin Zakariya University, Multan (Jan 2023 – Present)
University of Education Lahore, Multan Campus (Sept 2021 – Aug 2022)
Dr. Ramzan has taught advanced courses in fluid mechanics, differential equations, and applied mathematics. He is also an active contributor to mathematical Olympiads, student mentoring, and research symposiums.
Research Interest 🔬📈
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Fluid Dynamics and Unsteady Flow Modeling
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Heat and Mass Transfer with Chemical Reaction
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Fractional and Fractal-Fractional Calculus
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Laplace Transform Techniques in Thermal Systems
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Nanofluids and Magnetohydrodynamics (MHD)
Publications Top Noted
1. Effect of Brownian and Thermophoresis Motion on Fluid Flow with Chemical Reaction and Heat Transfer
Journal: Radiation Effects and Defects in Solids
Publication Date: February 24, 2025
DOI: 10.1080/10420150.2025.2467360
ISSN: 1042-0150 / 1029-4953
Co-authors: Muhammad Amir, Ahmad Shafique, Shajar Abbas, Abdullah Alhushaybari, Emad A. Az-Zo’bi, Yazen M. Alawaideh
Abstract:
This study explores the influence of Brownian motion and thermophoresis on nanofluid flow subjected to chemical reactions and heat transfer. The model incorporates radiation effects and defect analysis, contributing valuable insights to advanced thermal systems in reactive environments.
2. A Comparative Study of Heat Absorption and Chemical Reaction on MHD Flow with Fractional Derivatives
Journal: Numerical Heat Transfer, Part A: Applications
Publication Date: July 8, 2024
DOI: 10.1080/10407782.2024.2375322
Co-authors: Shajar Abbas, Zaib Un Nisa, Muhammad Amjad, Ahmed Sayed M. Metwally, Mudassar Nazar
Abstract:
This article investigates MHD flow under the influence of chemical reactions and heat absorption using fractional calculus. The comparative analysis offers new perspectives on thermal boundary behavior in magnetohydrodynamic regimes.
3. Analysis of Heat and Mass Transfer on Nanofluid: An Application of Hybrid Fractal-Fractional Derivative
Journal: Numerical Heat Transfer, Part A: Applications
Publication Date: June 17, 2024
DOI: 10.1080/10407782.2024.2366442
Co-authors: Shajar Abbas, Ahmad Shafique, Mudassar Nazar, Ahmed Sayed M. Metwally, Dilsora Abduvalieva, Hijaz Ahmad, Rashid Jan
Abstract:
This work combines fractal and fractional calculus to study nanofluid behavior in thermal systems. The hybridapproach significantly improves accuracy in modeling heat and mass transfer, with implications in microfluidics and energy engineering.
4. Application of Fractional Derivative on Nanofluid with Magnetic Field
Journal: Numerical Heat Transfer, Part B: Fundamentals
Publication Date: June 12, 2024
DOI: 10.1080/10407790.2024.2362940
Co-authors: Hakim AL Garalleh, Muhammad Amir, Ahmad Shafique, Shajar Abbas, Aiedh Mrisi Alharthi, Mudassar Nazar
Abstract:
This study evaluates the impact of magnetic fields on nanofluid flow using fractional derivatives. It reveals enhanced thermal conductivity and viscosity behavior under magnetic influence, opening pathways for MHD cooling system designs.
5. Analysis of Active and Passive Control of Fluid with Fractional Derivative
Journal: Numerical Heat Transfer, Part A: Applications
Publication Date: March 25, 2024
DOI: 10.1080/10407782.2024.2327008
Co-authors: Afnan Al Agha, Ahmed M. Zidan, Ahmad Shafique, Shajar Abbas, Mudassar Nazar, Hakim Al Garalleh
Abstract:
Focused on fluid control mechanisms, this paper explores how active and passive regulation techniques perform under fractional calculus modeling. The analysis supports the development of responsive flow systems in industrial and biomedical applications.
Conclusion 🌟🎯
Dr. Muhammad Ramzan demonstrates excellence in mathematical modeling, innovative use of fractional calculus, and scholarly productivity in the domain of fluid mechanics and thermal sciences. His published works offer substantive contributions to nanofluid dynamics and heat transfer theory, making his research both academically rich and practically relevant.