Mansur Mustafaoğlu | Computational Methods | Academic Achievement in Physics Award

Dr. Mansur Mustafaoğlu | Computational Methods | Academic Achievement in Physics Award

Atatürk University | Turkey

Dr. Mansour Nasiri Khalaji is a seasoned mechanical engineer and researcher, currently affiliated with the Department of Mechanical Engineering at Atatürk University, Erzurum, Turkey. With a profound commitment to thermal sciences, Dr. Khalaji has developed an international academic presence, particularly in the domains of heat transfer, fluid mechanics, and computational modeling.

👨‍🎓Profile

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📘 Early Academic Pursuits

Dr. Khalaji began his academic journey with a passion for mechanical systems and thermal processes. His Master’s thesis, titled “Experimental and Numerical Investigation of Heat and Flow in a Cross Heat Exchanger System”, laid a strong foundation in both experimental methods and numerical simulations. Building on this, his PhD research focused on “Flow and Heat Transfer in Newtonian and Non-Newtonian Flows in Different Bifurcation Models”, showcasing early specialization in complex fluid behaviors.

🏢 Professional Endeavors

Dr. Khalaji currently works in the Heat Laboratory at Atatürk University, where his main responsibilities include monitoring, mechanical engineering analysis, and the application of CFD tools. As a researcher in the Department of Thermodynamics, he applies his technical expertise to advance energy-efficient solutions and thermal system designs.

🔬 Contributions and Research Focus

Dr. Khalaji’s research spans various critical areas, including computational fluid dynamics (CFD), heat exchangers, photovoltaic systems, and thermal performance optimization. He is proficient in ANSYS-FLUENT, SOLIDWORKS, MATLAB, and the Taguchi method, enabling him to model and simulate highly accurate thermal systems. His collaborative works also explore carbon nanotubes, bifurcation models, and plate-fin heat exchangers, bridging the gap between applied physics and mechanical engineering.

🌍 Impact and Influence

His published work in journals like Applied Thermal Engineering, Journal of Heat Transfer, and Mechanics of Advanced Materials and Structures has significantly contributed to advancements in energy systems and thermal design. His research has implications for renewable energy, industrial cooling systems, and sustainable engineering practices, reinforcing his position as a thought leader in applied thermodynamics.

📈 Academic Citations

Dr. Khalaji has co-authored over a dozen high-impact journal articles, many of which are widely cited in the fields of mechanical engineering, heat transfer, and energy systems. While his h-index and total citations are not explicitly mentioned here, the breadth and depth of his contributions suggest a growing scholarly influence.

🛠️ Research Skills

His technical toolkit includes expertise in CFD modeling, heat exchanger design, thermal-fluid analysis, and parametric optimization using statistical tools. His work reflects a blend of hands-on experimentation and advanced computational analysis, making him a well-rounded researcher in both theoretical and applied mechanics.

👨‍🏫 Teaching Experience

While not elaborated in detail, his role at Atatürk University likely includes academic supervision, undergraduate and graduate instruction, and laboratory mentoring. His multilingual ability (Persian, English, Azeri, and Turkish) further enhances his effectiveness as an educator in diverse academic environments.

🏅 Awards and Honors

Although specific awards are not listed, Dr. Khalaji has been involved in nationally funded projects such as the TÜBİTAK Project and BAP Project, which support cutting-edge research in thermal systems design. His peer-reviewed publications and collaborative work with prominent researchers indicate recognition from the academic and engineering community.

🌟 Legacy and Future Contributions

Looking ahead, Dr. Khalaji is poised to make impactful contributions to next-generation energy systems, high-efficiency heat exchangers, and innovative cooling technologies. His multidisciplinary approach positions him as a potential leader in academic research, industrial innovation, and global energy sustainability efforts.

Top Noted Publications

Numerical Investigation of Changes in Heat Transfer Coefficient of Water-Aluminum Oxide Nanofluid Cooling in Nuclear Reactors

  • Authors: Mansur Mustafaoglu
    Journal: Nuclear Technology
    Year: 2025

Numerical analysis of the three-dimensional model of pulsatile and non-Newtonian blood flow in a carotid artery with local occlusion

  • Authors: Mansur Mustafaoğlu, İsak Kotçioğlu, Muhammet Kaan Yeşilyurt
    Journal: Mathematical Modelling and Numerical Simulation with Applications
    Year: 2025

Numerical thermal analysis of armchair (6,6) and zig-zag (12,0) carbon nano-tubes (CNTs)

  • Authors: I. Kotcioglu, M. Mustafaoglu, N. Dogan
    Journal: Mechanics of Advanced Materials and Structures
    Year: 2024

Heat transfer analysis of armchair (5,5) and zigzag (10,0) carbon nanotubes

  • Authors: Isak Kotcioglu, Mansour Nasiri Khalaji, Nihat Dogan
    Journal: Mechanics of Advanced Materials and Structures
    Year: 2021

 

 

Amin G Davodi | Computational mechanics | Member

Mr. Amin G Davodi | Computational mechanics | Member

Teaching at Mazandaran Institute of Technology (Babol, Iran),

Amin Gholami Davodi is a versatile professional with expertise in structural and mechanical engineering, coupled with a keen interest in applied mathematics. Holding an M.Sc. in Civil Engineering with a focus on Structural Engineering, he has excelled in national concrete competitions and computer olympiads. A dedicated educator, he teaches at the Mazandaran Institute of Technology and has served as a teaching assistant at Babol University of Technology. A prolific researcher and reviewer for numerous prestigious journals, Davodi has conducted significant experimental research in polymer modified asphalt and concrete. With extensive job experience in construction management and structural analysis, he is a valued member of the Iran Construction Engineering Organization.

Professional Profiles:

Education

M.Sc., Civil Engineering – Structural Engineering, Shahrood University of Technology Dissertation Title: Evaluation behavior of semi-rigid connection of steel structure using ANSYS software Thesis Supervisor: Dr. Ali Keyhani and Dr. Ramin Amini B.Sc., Civil Engineering, University of Mazandaran, Babol, Iran

Experience

Member of Iran Construction Engineering Organization, 2009-Now Member of Civil Engineering Committee of Babol, Babol, Iran, 2009-Now (Structural design of around 100,000 square meter buildings) Project manager in building construction projects at CBorj Shomal Co., 2005-Now Site Manager in South Bypass of Babol and its overpasses, 2011-2018 Structural analysis and design of buildings, 2009-2018

Teaching Experiences

Teaching at Mazandaran Institute of Technology (Babol, Iran), 2011-Now Teaching Assistant (TA) Applied Mathematics (Dr. Davood Domiri Ganji) at Babol University of Technology, 2008-2011

Honors and Awards

Second position in National concrete competition ACI Iran branch (Concrete bridge), 2003 First position in National concrete competition (High strength concrete), 2004 Second position in National concrete competition (Concrete with predefined properties), 2004 Passed the first exam in Iran National Computer Olympiad, Iran, 1999

Research Focus:

Amin Gholami Davodi’s research predominantly focuses on nonlinear dynamics and mathematical modeling in various engineering fields. He has contributed extensively to analytical solutions for nonlinear oscillation systems and differential equations using innovative approaches such as the max-min method, homotopy analysis method, and exp-function method. His work spans across disciplines including structural engineering, mechanical engineering, and applied mathematics. Davodi’s research has practical implications in understanding complex phenomena in vibration systems, fluid flow, and heat transfer, with applications in engineering design, optimization, and analysis. Overall, his research underscores a deep commitment to advancing theoretical and computational methods in engineering sciences.

Publications

  1. Combined formal periodic wave-like and soliton-like solutions of the conformable Schrödinger-KdV equation using the (G`/G)-expansion technique, Publication: 2023.
  2. New optical solitons of double Sine-Gordon equation using exact solutions methodsPublication: 2023.
  3. Application of modified Mickens iteration procedure to a pendulum and the motion of a mass attached to a stretched elastic wire, Publication: 2023.
  4. Investigation for brownian motion of nonlinear thermal bioconvective SPF in a nanofluid utilizing AGM methodPublication: 2023.
  5. Effects of elasticity and cross-flow Reynolds on visco-elastic fluids across the ground and a porous elliptic plate, Publication: 2023.
  6. Impressive and accurate solutions to the generalized Fokas-Lenells model, Publication: 2022.
  7. Shear performance of polypropylene fiber reinforced high-strength self- compacting concrete beamsPublication: 2022.
  8. Importance of induced magnetic field and exponential heat source on convective flow of Casson fluid in a micro-channel via AGMPublication: 2022.
  9. Analysis of Strongly Non-linear Oscillators by Hes Improved Amplitude-Frequency FormulationPublication: 2022.
  10. New explicit solitons for the general modified fractional Degasperis–Procesi–Camassa–Holm equation with a truncated -fractional derivative, Publication: 2022.
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