Mohammad Jahangir Alam | Marine Renewable Energy | Best Researcher Award

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Dr. Mohammad Jahangir Alam | Marine Renewable Energy | Best Researcher Award

Professor | Bangladesh University of Engineering and Technology (BUET) | Bangladesh

Dr. Mohammad Jahangir Alam is a distinguished professor in the Department of Electrical & Electronic Engineering at the Bangladesh University of Engineering & Technology (BUET) in Dhaka, Bangladesh. He has dedicated his career to academia and research, specializing in areas such as renewable energy, thin film deposition, and power electronics.

Profile

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Strengths for the Award 🏆

Dr. Alam holds a Ph.D. in Electronic Engineering, an M.Sc. in Electrical & Electronic Engineering, and a B.Sc. in the same field, all from reputable institutions. His educational qualifications lay a strong foundation for his research capabilities.

His research spans critical areas, including renewable energy, thin film technology, VLSI design, nano-technology, and power electronics. This breadth allows him to contribute significantly to multiple fields of electrical engineering.

Dr. Alam has an impressive list of over 30 publications in recognized and refereed journals, demonstrating his active engagement in advancing scientific knowledge. His work is highly relevant to current global challenges, particularly in energy efficiency and sustainability.

His various positions, including Professor, Director of the Institute of Nuclear Power Engineering, and past leadership in planning and development at BUET, showcase his capability to lead and contribute to the academic community beyond research.

His involvement in multiple collaborative projects, both nationally and internationally, reflects his ability to work with diverse teams and contribute to broader scientific endeavors.

Education 🎓

Dr. Alam holds a Doctor of Philosophy (Ph.D.) in Electronic Engineering from the School of Electronic Engineering at Dublin City University, Ireland, completed in 2001. He also earned his M.Sc. Engineering (Electrical & Electronic) and B.Sc. Engineering (Electrical & Electronic) from BUET in 1996 and 1993, respectively, achieving high academic honors throughout his studies.

Experience 🏢

With over two decades of teaching experience, Dr. Alam has served in various capacities at BUET, ascending from a lecturer to his current position as a professor since 2010. His international experience includes working as a Lab Instructor at Dublin City University, where he taught courses in Electrical Circuits, Analogue and Digital Electronics, and VLSI technology.

Research Interest 🔬

Dr. Alam’s research interests are diverse, focusing on renewable energy solutions, thin film technology, VLSI design, nanotechnology, and power electronics. His work contributes significantly to advancements in sustainable energy systems and electronic devices.

Award 🏆

Dr. Alam has received numerous accolades for his contributions to engineering and education. His dedication to research and innovation in the field has been recognized both nationally and internationally, underscoring his role as a leader in electrical and electronic engineering.

Publications 📑

Sustainable solution to the critical challenges of an oceanic wave farm for maximizing power generation

    • Authors: Molla, S., Farrok, O., Alam, M.J.
    • Year: 2024
    • Citations: 0

Numerical design of non-toxic high-efficiency tandem solar cell with distinct hole transport materials

    • Authors: Cheragee, S.H., Akhi, J.A., Dev, M., Haque, M.M., Alam, M.J.
    • Year: 2024
    • Citations: 1

Device modelling and numerical analysis of high-efficiency double absorbers solar cells with diverse transport layer materials

    • Authors: Cheragee, S.H., Alam, M.J.
    • Year: 2024
    • Citations: 4

Electrical energy and the environment: Prospects and upcoming challenges of the World’s top leading countries

    • Authors: Molla, S., Farrok, O., Alam, M.J.
    • Year: 2024
    • Citations: 10

Modeling and optimization of a high-efficiency lead-free perovskite solar cell structure by selecting optimal electron and hole transport layer

    • Authors: Bain, S., Nirjon, S.C., Alam, M.J.
    • Year: 2024
    • Citations: 0

Device modeling and numerical study of a double absorber solar cell using a variety of electron transport materials

    • Authors: Cheragee, S.H., Alam, M.J.
    • Year: 2023
    • Citations: 11

Translator Optimization of a Linear Electrical Generator for Harvesting Oceanic Wave Energy

    • Authors: Molla, S., Farrok, O., Alam, M.J.
    • Year: 2023
    • Citations: 3

Zero Carbon Emission Based Electrical Power Plant by Harvesting Oceanic Wave Energy: Minimization of Environmental Impact in Bangladesh

    • Authors: Molla, S., Farrok, O., Alam, M.J.
    • Year: 2023
    • Citations: 7

2-T Non-Toxic Multijunction solar cell with Diverse ETL materials

    • Authors: Cheragee, S.H., Islam, A.Z.M.T., Alam, M.J.
    • Year: 2022
    • Citations: 4

2-T Non-Toxic Tandem solar cell with Distinct HTL Materials

    • Authors: Cheragee, S.H., Alam, M.J.
    • Year: 2022
    • Citations: 7

Conclusion ✨

Dr. Mohammad Jahangir Alam’s qualifications, extensive research contributions, and leadership roles make him a suitable candidate for the Best Researcher Award. His strengths lie in his academic rigor, publication record, and administrative experience, which significantly benefit the Bangladesh University of Engineering & Technology and the broader field of electrical engineering. By addressing areas for improvement, such as interdisciplinary collaboration and public engagement, he can further enhance his impact and legacy in research.

YESOL YUN | Marine Technology | Best Researcher Award

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Ms. YESOL YUN | Marine Technology | Best Researcher Award

Master | Korea Maritime and Ocean University | South Korea

Strengths for the Award 🏆

Innovative Research Focus: Ye-Sol Yun’s research on the effects of laser beam overlap rates on aluminum alloy properties and laser decontamination techniques demonstrates a clear focus on advanced material processing and optimization. These studies contribute significantly to the field of maritime and ocean engineering, showcasing innovative approaches to enhance mechanical properties and decontamination processes.

Publications in Reputable Journals: Ye-Sol Yun has published in well-regarded journals, including “Metals” and the “International Journal of Modern Physics B.” This indicates a strong commitment to disseminating research findings in platforms recognized by the scientific community, adding credibility to her work.

Relevance to Industry Needs: The topics addressed in Yun’s research are highly relevant to industrial applications, particularly in maritime and ocean engineering, where material strength and surface treatment are critical. This alignment with industry needs enhances the practical value of her research contributions.

Recent and Current Work: The recency of publications (both in 2024) reflects active and ongoing research efforts, indicating that Yun is at the forefront of her field. This timeliness is an important factor in award considerations, as it demonstrates the continued relevance and impact of her work.

📜 Short Bio

Yesol Yun is a dedicated Master’s student at Korea Maritime and Ocean University, specializing in advanced research on the effects of laser technologies in the field of materials science. With a strong academic background and a passion for exploring the intersections of laser applications and metallurgy, Yesol has made significant contributions through research that blends theory and practical insights. Known for her meticulous approach and innovative problem-solving skills, she is rapidly building a reputation in the academic community.

🌟 Profile

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🎓 Education

Ms. Yesol Yun is currently pursuing her Master’s degree at Korea Maritime and Ocean University, where she focuses on materials science and engineering, particularly in the application of laser technologies to enhance metal properties. Her educational journey has been marked by a commitment to excellence and a drive to push the boundaries of conventional metallurgical techniques.

💼 Experience

Yesol has been actively involved in research projects that investigate the impact of laser peening and decontamination processes on aluminum alloys. Her work has contributed valuable insights into how laser beam overlap rates can influence the mechanical properties of metals. Through her studies, she has developed a strong foundation in both theoretical and practical aspects of laser-material interactions, positioning her as a promising researcher in her field.

🔬 Research Interest

Yesol Yun’s research interests lie at the intersection of laser technology and material science, with a focus on laser peening and decontamination techniques. She is particularly interested in how these technologies can improve the mechanical properties and surface integrity of metals. Her goal is to advance the understanding of laser applications in industrial settings, aiming to develop more efficient and sustainable metal treatment processes.

🏆 Awards

Yesol Yun has been recognized for her academic achievements and contributions to research in materials science. While she is still early in her career, her innovative research projects have garnered attention, and she has been nominated for several academic awards in recognition of her potential and dedication to her field.

📚 Publications

  • “Effect of Laser Beam Overlap Rate on Mechanical Properties of Aluminum Alloy Arc Welding with Laser Peening”
    Published in Metals on September 6, 2024. This study explores the influence of laser beam overlap rates on the mechanical properties of aluminum alloys, highlighting the potential benefits of laser peening in welding applications.
  • “A Study on the Effect of Laser Decontamination by Beam Overlap Rate of Crud Formed on Aluminum Alloy”
    Published in International Journal of Modern Physics B on May 17, 2024. This paper examines the effects of laser decontamination on aluminum alloys, specifically focusing on how varying the beam overlap rate impacts the removal of contaminants.

📝 Conclusion

Yesol Yun is an emerging researcher in the field of materials science, with a particular emphasis on laser technologies. Through her studies at Korea Maritime and Ocean University, she has contributed to the understanding of how laser applications can enhance the properties of metals, demonstrating both her technical acumen and her potential to drive future innovations in the field. As she continues to develop her research and expertise, Yesol is poised to make significant impacts in both academic and industrial settings.

Onur Usta | Marine Hydrodynamics | Best Researcher Award

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Assist Prof Dr. Onur Usta | Marine Hydrodynamics | Best Researcher Award

Dr | National Defence University | Turkey

Strengths for the Award

Extensive Research Background: Onur Usta has a robust academic background, with a Ph.D. in Naval Architecture and Marine Engineering from Istanbul Technical University, supplemented by research experience at Strathclyde University in the UK. His expertise in cavitation and cavitation erosion, particularly related to marine propellers, is reflected in his numerous publications in high-impact journals such as Ocean Engineering and Applied Ocean Research.

Innovative Contributions: He has developed a new technique called the Erosive Power Method (EPM) for predicting cavitation erosion on propeller blades using CFD, showcasing his innovative approach to solving complex engineering problems.

Publication Record: With 9 articles published in esteemed journals and over 182 citations, Usta’s research has significantly impacted the field. His works, especially on cavitation erosion and propeller design, have received considerable attention, which underscores his influence in marine engineering research.

Teaching and Mentorship: Usta has considerable teaching experience, delivering courses across various levels in subjects like Fluid Mechanics, Ship Hydrostatics and Stability, and Naval Architecture. His role as an educator adds to his profile, demonstrating his commitment to nurturing the next generation of engineers.

Leadership Roles: His administrative experience as Co-Head of the Department of Naval Architecture and Marine Engineering at the National Defence University and as an Associate Editor for several journals highlights his leadership qualities and his contribution to advancing the field beyond his research.

🎯 Short Bio

Dr. Onur Usta is a distinguished Naval Architect and Marine Engineer with a robust academic background and extensive research experience in cavitation erosion, marine propellers, and submarine dynamics. He currently serves as an Assistant Professor at the Turkish Naval Academy, contributing significantly to the field of Naval Architecture and Marine Engineering through both teaching and cutting-edge research.

Profile

Scopus

🎓 Education

Dr. Usta holds a Ph.D. in Naval Architecture and Marine Engineering from Istanbul Technical University (ITU), where he focused on cavitation and cavitation erosion modeling on marine propellers. He also conducted research at Strathclyde University in Glasgow, UK, enhancing his expertise in ocean engineering. His academic journey began with a B.Sc. in Naval Architecture and Marine Engineering from Yildiz Technical University, followed by an M.Sc. from ITU.

💼 Experience

Dr. Usta’s professional experience includes his current role as an Assistant Professor at the National Defence University, Turkish Naval Academy. He has also worked as a Postdoctoral Researcher at TUBITAK, where he investigated cavitation erosion on marine propellers. His earlier roles include serving as a Research Assistant at ITU and contributing to ship resistance, propulsion, and seakeeping experiments at the ITU Ata Nutku Ship Model Testing Laboratory. Dr. Usta also gained valuable industry experience as a consultant for Nuras Management and Consulting.

🔬 Research Interests

Dr. Usta’s research interests are diverse and forward-looking, focusing on marine propellers, cavitation erosion, and noise, as well as propeller design. He is also engaged in exploring renewable energy and alternative fuels for ships, hybrid power and propulsion systems, submarine design, and the numerical modeling of viscous flows and turbulence. His work extends to bio-inspired design, ship resistance and propulsion, seakeeping, and ocean waves.

🏆 Awards

Dr. Usta has been recognized for his significant contributions to naval architecture and marine engineering. His work on cavitation erosion and propeller design has earned him accolades and respect in the academic and professional communities.

📚 Publications

A Comprehensive Investigation of Uncertainties in Cavitating Waterjet Experiments – Published in Applied Ocean Research 149 (2024) 104038, this study explores the uncertainties in cavitating waterjet experiments. Cited by multiple subsequent studies.

A Systematic Study into the Cavitation Erosion Test for Marine Propeller Materials by Cavitating Jet TechniqueOcean Engineering 284 (2023) 115252, co-authored with Cagatay S. Koksal and Emin Korkut, focuses on cavitation erosion testing for marine propeller materials. Cited by several research papers.

Systematic Investigation of the Tip Effects on Vortex-Induced Vibrations for Circular Cylinders – This work, featured in Ocean Engineering 239, (2021) 109829, was a collaborative effort with Aytekin Duranay and Ömer Kemal Kınacı. Widely referenced in studies on vortex-induced vibrations.

Numerical Prediction of Cavitation Erosion to Investigate the Effect of Wake on Marine Propellers – Published in Ocean Engineering 239, (2021) 109820, co-authored with Cagatay S. Koksal and Batuhan Aktas. Cited by several papers focused on marine propeller design.

Uncertainty Analysis of Experiments of Vortex-Induced Vibrations for Circular Cylinders – Featured in the Journal of Applied Fluid Mechanics 14 (2), 541-553 (2021), co-authored with Aytekin Duranay. Cited in studies on fluid mechanics and vibrations.

Conclusion

Onur Usta is a strong candidate for the “Best Researcher Award” due to his innovative contributions, solid publication record, and leadership roles in both academia and research. By addressing areas such as expanding research impact, enhancing international collaborations, and increasing public engagement, Usta could further solidify his standing as a leading researcher in his field. His current accomplishments and ongoing projects certainly make him a deserving nominee for this award.