Amirmahdi Rahmani | Environmental Impact of Vehicles | Editorial Board Member

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Mr. Amirmahdi Rahmani | Environmental Impact of Vehicles | Editorial Board Member

Master Student in Sustainability in Polymer Technology | Deggendorf Institute of Technology | Germany

Mr. Amirmahdi Rahmani is a passionate and forward-thinking researcher whose work bridges sustainability, renewable energy, and advanced materials engineering. His academic foundation and professional journey reflect a deep commitment to advancing eco-friendly technologies and sustainable industrial practices. His research experience spans diverse domains, including green tribology, bio-lubricants, renewable energy systems, and polymer sustainability. Through his professional roles, he has contributed to enhancing mechanical and environmental performance in industrial applications, from improving the mechanical properties of lubricants to optimizing oscillating flow reactors for efficient mixing processes. His collaboration with leading institutions and companies such as Springer Nature, Pardis Shimi Bakhtar Co., and Iran Khodro Co. underscores his technical expertise and research integrity. Rahmani’s publications demonstrate a consistent focus on sustainability and innovation, with studies exploring bio-lubricants, nano-enhancers, zero-carbon village models, and wind energy optimization for greenhouse gas reduction. His research interests lie in sustainable materials development, circular economy integration, renewable energy conversion, and mechanical system optimization for low-carbon technologies. He is skilled in experimental design, computational modeling, life cycle assessment, and energy efficiency analysis, combining theoretical insights with practical applications. His achievements reflect academic rigor, professional discipline, and a global perspective on the transition to sustainable energy systems. Rahmani’s dedication to research excellence and his interdisciplinary approach position him as an emerging scholar in the fields of green technology and sustainable engineering. He has achieved 11 Citations, 3 documents, 2h-index.

Profiles:  Google Scholar Scopus

Featured Publications 

  1. Yousefi, H., Montazeri, M., & Rahmani, A. (2021). Techno-economic analysis of wind turbine systems to reduce carbon emission of greenhouses: A case study in Iran. In Proceedings of the 7th Iran Wind Energy Conference (IWEC2021) (pp. 1–4). IEEE.

  2. Rahmani, A., Razavi, H. K., & Dehghani-Soufi, M. (2024). Green tribology assessment: A comprehensive review of bio-lubricants and nano enhancers. Energy Conversion and Management: X, 24, 100794.

  3. Yousefi, H., Rahmani, A., & Montazeri, M. (2023). Sustainable development through the establishment of zero-carbon villages. In Proceedings of the 8th International Conference on Technology and Energy Management (ICTEM2023). IEEE.

  4. Rahmani, A., Dehghani-Soufi, M., Fazeli, H., & Razavi, H. K. (2024). Experimental analysis of nano additive mixing in bio-lubricants: Implications for tribological performance using oscillatory flow technology. Available at SSRN 5118516.

    Mr. Amirmahdi Rahmani’s research advances sustainable energy and green tribology through innovative material science and renewable technology integration. His work bridges environmental engineering and mechanical optimization, providing scalable solutions for low-carbon industries. By combining experimental and techno-economic analyses, Rahmani contributes to the global transition toward sustainable manufacturing, clean energy systems, and environmentally responsible engineering innovation.

 

Eshetu Gorfie | Hybrid Vehicles | Best Researcher Award

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Assoc. Prof. Dr. Eshetu Gorfie | Hybrid Vehicles | Best Researcher Award

Researcher | Bahir Dar University | Ethiopia

Dr. Eshetu Haile is a distinguished mathematician and academician who has made remarkable contributions to mathematical sciences through his extensive teaching, research, and leadership experience. With over two decades of service at Bahir Dar University, Ethiopia, he has been instrumental in shaping the academic and research culture within the Department of Mathematics. His professional career reflects excellence in teaching both undergraduate and postgraduate students, supervising more than 30 MSc and 8 PhD candidates, and providing strong mentorship to emerging researchers. Dr. Haile’s research interests encompass fluid dynamics, differential equations, complex analysis, special functions, and fractional calculus, areas in which he has published more than 37 peer-reviewed papers in reputed international journals. His research skills include mathematical modeling, computational fluid dynamics, analytical methods, and the application of advanced numerical techniques in solving real-world scientific and engineering problems. Beyond academia, he has demonstrated outstanding leadership as Head of the Mathematics Department, Coordinator of Distance Education Programs, and Chair of various institutional committees, contributing significantly to academic development and policy formation. His dedication to quality education and research excellence has been recognized through multiple honors, including Best Teacher of the Year and appreciation awards for leadership and conference organization. Dr. Haile’s scholarly achievements continue to influence both theoretical and applied mathematics, advancing knowledge in modern fluid mechanics and computational mathematics. His commitment to fostering academic innovation and community engagement underscores his vital role in Ethiopia’s higher education landscape and the global scientific community.He has acheived  356 Citations, 19 Documents, 9 h-index.

Profiles:  ORCID | Research Gate | Scopus

Featured Publications

1. Moltot, A. T., Haile Gorfie, E., Zergaw, G. A., & Asress, H. D. (2025). Influences of variable thermal conductivity, viscous dissipation, and Cattaneo–Christov heat and mass fluxes on MHD tangent hyperbolic ternary hybrid nanofluid flow over a stretching sheet. Engineering Reports.

2. Eneyew, E., Haile, E., Walelgn, A., & Tsegaw, E. (2025, May 14). Dual-phase thermal and concentration relaxation effects on magneto-viscoelastic Williamson nanofluid: A Cattaneo–Christov flux approach. Preprint.

3. Haile Gorfie, E., Moltot, A. T., Zergaw, G. A., & Dessie, H. (2025). Influence of Joule heating and nonlinear thermal radiation on the electrical conductivity of second-grade hybrid nanofluid flow over a stretching cylinder. Engineering Reports.

4. Tsegaye, A., Haile, E., Zergaw, G. A., & Dessie, H. (2025, March 31). Effect of non-linear thermal radiation and Cattaneo–Christov heat and mass fluxes on the flow of Williamson hybrid nanofluid over a stretching porous sheet [version 2; peer review: 2 approved, 2 approved with reservations]. F1000Research.

5. Moltot, A. T., Haile Gorfie, E., Zergaw, G. A., & Dessie, H. (2025, March 10). Unsteady MHD flow of tangent hyperbolic ternary hybrid nanofluid in a Darcy–Forchheimer porous medium over a permeable stretching sheet with variable thermal conductivity [version 2; peer review: 3 approved]. F1000Research.