Dr. Shajar Abbas | Fluid dynamics | Best Researcher Award

Researcher | Centre for Advanced Studies in Pure and Applied Mathematics, Zakariya University Multan, Bahauddin, Pakistan | Pakistan

Short Bio 🌱

Shajar Abbas is a passionate researcher in the field of fluid dynamics, driven by a quest for understanding complex flow behaviors and heat transfer phenomena. His academic journey has been marked by a dedication to rigorous scientific inquiry and a commitment to advancing the frontiers of knowledge in his field.

Profile

SCOPUS

Education 🎓

Shajar Abbas pursued his doctoral studies in Mathematics at CASPAM, Bahauddin Zakariya University, Multan, Pakistan, from September 2021 to September 2024. Under the guidance of Prof. Dr. Mudassar Nazar, his research focused on “Unsteady flows of Jeffrey and Casson fluids over a flat plate using constant proportional Caputo fractional derivative.” During his doctoral program, he engaged deeply with courses in Fluid Mechanics, Ordinary and Partial Differential Equations, and Fractional Calculus, equipping him with robust theoretical foundations and analytical skills crucial for his research endeavors.

Experience 💼

Shajar Abbas has augmented his academic pursuits with teaching roles, serving as a Visiting Lecturer at Emerson University, Multan, and B.Z. University, Multan, since 2021. In these positions, he has been instrumental in imparting knowledge in Fluid Mechanics and fostering a learning environment conducive to academic growth. His experience extends to research collaborations with students, guiding them in exploring the complexities of fluid dynamics through practical applications and theoretical frameworks.

Research Interest 📊

His research interests span several critical areas within fluid dynamics, including unsteady flows, heat and mass transfer phenomena, fractional calculus applications in fluid dynamics, and the Laplace transform. These interests reflect his profound curiosity and commitment to unraveling the intricacies of fluid behavior and its implications across various industrial and environmental contexts.

Award 🏆

Shajar Abbas is a distinguished recipient of the HEC Pakistan NEED Base Scholarship and the HEC Pakistan Laptop Award. These accolades underscore his academic excellence and contribution to advancing the field of mathematics and fluid dynamics in Pakistan.

Publications

• Heat and Mass Transfer Analysis of MHD Jeffrey Fluid over a Vertical Plate with CPC Fractional Derivative
  • Published in: Symmetry, Volume 14, Issue 12, 2022
  • Authors: Shajar Abbas, Mudassar Nazar, Z.U. Nisa, M. Amjad, S.M.El. Din, A.M. Alanzi
  • Abstract: This paper investigates the heat and mass transfer characteristics of MHD Jeffrey fluid over a vertical plate using the Constant Proportional Caputo (CPC) fractional derivative approach.
  • Link: Symmetry
• Bio-convection flow of fractionalized second-grade fluid through a vertical channel with Fourier’s and Fick’s law
  • Published in: Modern Physics Letters B, 2023
  • Authors: Shajar Abbas, S.F.F. Gilani, M. Nazar, M. Fatima, M. Ahmad, Zaib Un Nisa
  • Abstract: This study explores the bio-convection flow of fractionalized second-grade fluid in a vertical channel, incorporating Fourier’s and Fick’s laws.
  • Link: Modern Physics Letters B
• Heat and mass transfer through a vertical channel for the Brinkman fluid using Prabhakar fractional derivative
  • Published in: Applied Thermal Engineering, 2023
  • Authors: Shajar Abbas, M. Ahmad, M. Nazar, M. Amjad, H. Ali, A.Z. Jan
  • Abstract: This paper examines the heat and mass transfer characteristics in a vertical channel for the Brinkman fluid, employing the Prabhakar fractional derivative method.
  • Link: Applied Thermal Engineering
• Application of heat and mass transfer to the convective flow of Casson fluids in a microchannel with Caputo–Fabrizio derivative approach
  • Published in: Arabian Journal for Science and Engineering, Volume 49, Issue 1, 2024
  • Authors: Shajar Abbas, Z.U. Nisa, M. Nazar, M. Amjad, H. Ali, A.Z. Jan
  • Abstract: This research investigates the convective flow of Casson fluids in a microchannel, employing the Caputo–Fabrizio derivative approach to analyze heat and mass transfer phenomena.
  • Link: Arabian Journal for Science and Engineering
• A CPC fractional model of the heat and mass transport mechanism in Carbon nanotubes with slip effects on velocity
  • Published in: Modern Physics Letters B, Volume 38, Issue 13, 2024
  • Authors: Shajar Abbas, M. Nazar, S.F.F. Gillani, M. Naveed, M. Ahmad, Z.U. Nisa
  • Abstract: This study presents a CPC fractional model to analyze the heat and mass transport mechanisms in Carbon nanotubes, incorporating slip effects on velocity.
  • Link: Modern Physics Letters B