Abirmoy Ghosh | Petroleum Engineering | Best Researcher Award

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Mr. Abirmoy Ghosh | Petroleum Engineering | Best Researcher Award

Manager at INDIAN OIL CORPORATION LIMITED PANIPAT REFINERY, India

Abirmoy Ghosh is a dynamic and results-oriented professional currently serving as Manager at the Indian Oil Corporation Limited (IOCL), Panipat Refinery. With a strong foundation in mechanical engineering and over nine years of experience in refinery operations and R&D, he has consistently demonstrated excellence in mechanical design, engineering, and stress analysis. Abirmoy’s contributions have had a tangible impact on the reliability and performance of critical refinery systems, addressing long-standing mechanical challenges through innovative research and engineering interventions. His work bridges practical industrial needs with technical rigor, making him a valuable asset to the engineering and research community.

Profile

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Education

Abirmoy holds a Bachelor of Technology degree in Mechanical Engineering and a Master of Technology degree in Applied Mechanics, both from the prestigious Indian Institute of Technology (IIT) Delhi. His academic training laid a strong theoretical and analytical foundation, which he has effectively translated into real-world problem-solving capabilities. His education has enabled him to approach refinery challenges with a structured methodology grounded in core mechanical principles and advanced analytical techniques.

Experience

Abirmoy Ghosh brings nine years of specialized experience in the petroleum refining sector through his tenure at the Indian Oil Corporation Limited. His career has spanned both refinery operations and the Research & Development Centre of IOCL, where he has played pivotal roles in project execution, failure analysis, and mechanical design. He has been involved in troubleshooting, upgrading, and maintaining critical refinery components across multiple IOCL sites. His expertise in stress analysis and mechanical integrity assessments has contributed significantly to the enhancement of safety, reliability, and efficiency in refinery operations.

Research Interest

Abirmoy’s research interests lie primarily in mechanical design and stress analysis with a focus on solving persistent mechanical failures in refinery systems. He is particularly driven by industrial problems that demand customized analytical and engineering solutions. His recent work on improving the reliability of expansion joints in the reactor overhead lines of Fluidized Catalytic Cracking (FCC) units exemplifies his approach to research—targeting chronic issues with precision analysis, solution engineering, and practical implementation. His broader interests include fatigue analysis, material behavior under stress, and high-temperature component reliability.

Award

In recognition of his pioneering work in addressing a long-pending reliability issue in a critical refinery system, Abirmoy Ghosh is a strong contender for the Best Researcher Award. His innovative contributions to mechanical failure analysis and design optimization have delivered significant operational improvements, directly impacting plant reliability and safety. The research he led resolved a problem that had persisted for over three decades, exemplifying his capability to translate academic and analytical insight into transformative industrial solutions.

Publication

Abirmoy has one notable journal publication to his credit.

“Failure Analysis and Reliability Improvement of Expansion Joint in FCC Reactor Overhead Line of Petroleum Refinery”, Journal of Failure Analysis and Prevention, Springer, 2025. Cited by 4 articles to date.

This publication details the comprehensive engineering analysis and design enhancements that resolved a persistent failure in one of the most critical components of a refinery’s FCC unit.

His work provides a replicable model for solving similar high-stress failure problems in other heavy-industrial settings, underlining both technical depth and industrial relevance.

Conclusion

Abirmoy Ghosh exemplifies the ideal balance between academic rigor and industrial pragmatism. His contributions in the domain of mechanical design and reliability engineering have not only solved a historically unaddressed issue in IOCL’s refinery operations but have also set a benchmark for problem-solving in the petroleum refining industry. His deep technical insight, backed by strong educational credentials and a track record of impactful implementation, makes him an outstanding candidate for the Best Researcher Award. Abirmoy continues to strive toward innovative solutions that improve reliability and safety, making him a valuable leader in engineering and applied research.

Jingye Liu | Future of Fossil Fuels and Energy Transition | Best Researcher Award

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Dr. Jingye Liu | Future of Fossil Fuels and Energy Transition | Best Researcher Award

Doctoral Student at China University of Mining and Technology (Beijing), China

Jingye Liu is a promising early-career scholar in the field of management science and engineering with a focus on energy systems and supply chain security. Currently pursuing his doctoral studies at the School of Management, China University of Mining and Technology (Beijing), Liu demonstrates a strong commitment to addressing critical issues in global energy supply chains. His research integrates complex quantitative models and real-world policy relevance, contributing meaningful insights into China’s crude oil security strategies. Despite being at the early stages of his academic journey, Liu has already authored several influential publications in prestigious journals and is actively engaged in collaborative, policy-driven research that tackles geopolitical energy challenges.

Profile

Scopus

Education

Jingye Liu is undertaking a Ph.D. in Management Science and Engineering at the China University of Mining and Technology (Beijing), which commenced in September 2023 and is expected to conclude in June 2027. Under the supervision of Professor Rijia Ding, his doctoral work is rooted in multidisciplinary methodologies, combining systems engineering, energy economics, and data-driven decision-making. His academic foundation supports an applied approach to analyzing the energy sector, particularly focused on crude oil supply chain dynamics and national energy security frameworks.

Experience

Although still a Ph.D. candidate, Liu has accumulated substantial experience through collaborative academic research and publication efforts. Working alongside faculty and other researchers, he has been integrally involved in national-level studies evaluating the structure and vulnerabilities of China’s energy systems. His role often includes constructing evaluation models, analyzing large datasets, and interpreting policy implications based on empirical outcomes. Through his research, Liu has developed a nuanced understanding of strategic petroleum reserves, maritime logistics, and risk mitigation strategies. His capacity for teamwork, quantitative analysis, and strategic thinking has earned him recognition among peers and mentors alike.

Research Interest

Jingye Liu’s primary research interests lie in the areas of energy policy, supply chain security, and risk assessment in the context of geopolitical and domestic variables. He is particularly invested in exploring the vulnerabilities and optimization strategies within China’s crude oil supply chain. His work involves employing life-cycle analysis, DEA-like models, and system dynamics to evaluate security performance and provide evidence-based recommendations. Liu is also interested in renewable energy integration, international energy cooperation, and the development of early-warning systems for energy risk monitoring, aligning with global efforts toward sustainable and resilient energy infrastructures.

Award

While still building his academic career, Jingye Liu has earned early recognition through participation in national research projects and contribution to high-impact publications. His co-authored article in Energy Strategy Reviews, a leading journal in energy policy and strategy, stands as a testament to his growing influence in the field. Though no formal awards are listed in the resume, his selection to work on national-level energy risk evaluation projects reflects a form of institutional acknowledgment and academic trust that reinforces the merit of his contributions.

Publication

Jingye Liu has published impactful research in peer-reviewed journals, notably contributing to the following article:

Accessing the security of crude oil supply chain: The case of China, published in Energy Strategy Reviews, Volume 59, May 2025 (Cited by: [data not specified]). Co-authored with Fengqi Guo, Ying Shi, Rijia Ding, and Zhen Chen, this study presents a comprehensive life-cycle risk assessment model to evaluate China’s crude oil supply chain from 2012 to 2022.

The article offers policy recommendations to mitigate upstream vulnerabilities and enhance national energy resilience through expanded strategic reserves and maritime autonomy.

Although this is his most prominently documented publication, Liu is actively engaged in research that is expected to yield further high-quality outputs, reinforcing his academic trajectory and potential impact on the field.

Conclusion

Jingye Liu represents the next generation of researchers committed to securing global and national energy systems through rigorous analytical methods and policy-relevant research. His doctoral journey is already marked by meaningful contributions, including a major journal publication and active participation in strategic research collaborations. With a foundation in management science and engineering and a focus on real-world energy challenges, Liu is well-positioned to contribute significantly to academic and policy discussions in the coming years. His nomination for this award is supported by his academic rigor, innovative research focus, and evident potential to shape the future of energy system analysis and management.

Rashed Sahraeian | Sustainability in Oil and Gas | Best Scholar Award

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Prof. Dr. Rashed Sahraeian | Sustainability in Oil and Gas | Best Scholar Award

Professor at Shahed University, Iran

Professor Rashed Sahraeian is a distinguished full professor in the Department of Industrial Engineering at Shahed University, Tehran, Iran. His career reflects a deep dedication to the fields of optimization, supply chain management (SCM), facility location problems (FLP), and location-routing problems (LRP). Professor Sahraeian is widely recognized for his extensive contributions to academia through impactful research, prolific publications, mentorship of graduate students, and active participation in peer reviewing for top international journals. His scholarly excellence and commitment to industrial engineering have made him a prominent figure both nationally and internationally.

Profile

Google Scholar

Education

Professor Sahraeian’s educational foundation is rooted in industrial engineering, where he specialized in operations research and optimization methodologies. Throughout his academic training, he developed a keen interest in complex decision-making models, quantitative analysis, and supply chain design. His formal education provided him with advanced competencies in mathematical modeling, computational techniques, and logistics systems, setting a robust stage for his future contributions to the domain.

Experience

With an academic career spanning over two decades, Professor Sahraeian has amassed extensive experience in teaching, research, and supervision. He has taught specialized courses including Facility Layout and Location, Supply Chain Management, Scheduling and Sequencing, and Integer Programming. As a dedicated mentor, he has supervised over 55 Master’s theses and 12 Ph.D. dissertations, nurturing the next generation of engineers and researchers. His practical involvement extends beyond academia, where he applies his research findings to real-world industrial problems, emphasizing sustainable and resilient supply chain solutions. Furthermore, his active role as a reviewer for high-impact journals underscores his expertise and reputation in the global academic community.

Research Interest

Professor Sahraeian’s primary research interests encompass optimization in industrial systems, closed-loop supply chain design, facility location under uncertainty, and robust scheduling. He is particularly passionate about solving multi-objective optimization problems in logistics and production environments, employing innovative methods such as hybrid evolutionary algorithms, constraint programming, and grey system theory. His recent work also extends into sustainable supply chain network design, considering environmental factors and resilience against disruptions, aligning closely with contemporary industrial needs and global sustainability goals.

Award

Throughout his academic journey, Professor Sahraeian has been recognized for his outstanding research and educational contributions. He has earned awards and acknowledgments for his significant role in advancing industrial engineering, particularly for his impactful publications and excellence in student supervision. His recognition as a leading figure in optimization and supply chain management is further evidenced by his continuous invitations to review papers for prestigious journals such as the Journal of Cleaner Production, Computers & Industrial Engineering, and Applied Mathematical Modelling.

Publication

Among his many publications, seven notable works illustrate his influential contributions.

(1) In 2012, he co-authored “An interactive possibilistic programming approach for a multi-objective closed-loop supply chain network under uncertainty” in Applied Mathematical Modelling (cited by 340 articles).

(2) In 2013, he published “The hierarchical hub covering problem with an innovative allocation procedure covering radiuses” in Scientia Iranica (cited by 85 articles).

(3) In 2014, his study on “Dynamic multi-commodity inventory and facility location problem in steel supply chain network design” appeared in the International Journal of Advanced Manufacturing Technology (cited by 110 articles).

(4) In 2015, he explored “Optimal modeling and evaluation of job shops with a total weighted tardiness objective” in Applied Mathematical Modelling (cited by 92 articles).

(5) That same year, he co-authored “Augmented ε-constraint method in multi-objective flow shop problem with past sequence setup times” in the International Journal of Production Research (cited by 70 articles).

(6) In 2016, he contributed “MULTI-OBJECTIVE OPTIMIZATION OF INTEGRATED LOT-SIZING AND SCHEDULING PROBLEM IN FLEXIBLE JOB SHOPS” to RAIRO Operations Research (cited by 60 articles).

(7) In 2024, he published “Decision-Making Approach to Design a Sustainable Photovoltaic Closed-Loop Supply Chain Considering Market Share for Electric Vehicle Energy” in Sustainability (garnering growing citations). These selected publications emphasize his research depth and broad application impact.

Conclusion

In conclusion, Professor Rashed Sahraeian has made outstanding contributions to the advancement of industrial engineering, particularly in optimization and supply chain network design. His research innovations, leadership in education, and strong publication record position him as a leading figure in his field. Through a combination of theoretical rigor and practical relevance, he continues to influence the discipline of industrial engineering, inspiring students and colleagues alike. His career trajectory exemplifies academic excellence, practical relevance, and a deep commitment to solving real-world industrial challenges through advanced research methodologies.

Bawoke Mekuye Getnet | Petroleum Engineering | Best Researcher Award

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Mr. Bawoke Mekuye Getnet | Petroleum Engineering | Best Researcher Award

Researcher and Lecturer at Mekdela Amba University, Ethiopia

Bawoke Mekuye Getnet is a dedicated physicist and academic with substantial experience in both secondary and higher education, coupled with a growing research profile in nanomaterials and computational condensed matter physics. His academic journey has been defined by a deep commitment to enhancing scientific understanding and innovation in Ethiopia. As a lecturer and coordinator at Mekdela Amba University, he plays a pivotal role in shaping the academic and research landscape of the institution. His work, marked by both theoretical and computational depth, has contributed meaningfully to the study of optical properties and magnetic behavior in nanomaterials and semiconductors.

Profile

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Education

Bawoke Mekuye began his academic journey in physics at Dilla University, where he earned his Bachelor of Science in 2013. Following his passion for deeper scientific inquiry, he pursued a Master of Science degree at Debre Markos University, completing it in 2019 with a focus on applied and theoretical physics. His academic background has provided him with a strong foundation in computational modeling and materials science, which he has skillfully applied in both research and teaching.

Experience

Starting his career as a physics teacher at Debre Work Secondary and Preparatory School in 2013, Bawoke Mekuye developed a strong grounding in pedagogy and science communication. In 2020, he transitioned into higher education as a lecturer at Mekdela Amba University, where he currently teaches undergraduate and postgraduate students. Since 2023, he has also served as the Coordinator for Undergraduate, Postgraduate, and Continuing Education Programs in the College of Natural and Computational Sciences. In this role, he has been instrumental in curriculum development and academic program management. His experience extends to teacher training and professional development, having conducted multiple training sessions for educators and students.

Research Interest

Bawoke Mekuye’s research interests lie at the intersection of nanotechnology, materials science, and condensed matter physics. He focuses primarily on the optical and magnetic properties of nanomaterials, with specific attention to the effects of size, doping, and external fields on semiconductor behavior. His theoretical and computational investigations explore advanced materials such as diluted magnetic semiconductors, silver and gold nanoparticles, and emerging energy-related nanostructures. Through his work, he aims to contribute to advancements in high-performance materials for electronics, photonics, and energy storage systems.

Awards and Recognition

Throughout his academic and professional career, Bawoke Mekuye has received recognition for his commitment to science and education. He was honored by Mekdela Amba University for his seminar presentation on nanomaterials, where he effectively communicated complex concepts regarding synthesis, classification, and application of nanostructures. Additionally, he has been active as a reviewer for renowned scientific journals including those published by IOP, Elsevier, and Springer Nature, further reflecting his growing standing in the scientific community.

Publications

Bawoke Mekuye has authored and co-authored multiple peer-reviewed publications in prominent journals, reflecting his expertise in computational physics and nanomaterials. Among his most cited works are:

Mekuye B, Abera B. “Nanomaterials: An overview of synthesis, classification, characterization, and applications.” Nano Select, 2023.

Mekuye B. “The Impact of Size on the Optical Properties of Silver Nanoparticles Based on Dielectric Function.” IntechOpen, 2023.

Mekuye B, Höfer R, Mebratie G. “Computational Study of the Effect of the Size-Dependent Dielectric Functions of Gold Nanomaterials on Optical Properties.” Advances in Condensed Matter Physics, 2024.

Mekuye B, Atnafu D, et al. “Computational investigation of high Curie temperature in iron‐doped GaSb.” Nano Select, 2024.

Mekuye B, Zerihun G. “Theoretical study on the effects of Mn ion doping and magnetic field in (In, Mn)As.” Results in Physics, 2024.

Mekuye B, Höfer R, Abera B. “Nanomaterials: Terms, Definition and Classification.” Elsevier, 2024.

Mekuye B, Mebratie G, et al. “Energy: An Overview of Type, Form, Storage, Advantages, Efficiency, and Their Impact.” Energy Science & Engineering, 2024.

These publications have collectively gained citations from numerous researchers exploring nanostructured materials, semiconductor physics, and applied energy systems.

Conclusion

Bawoke Mekuye Getnet stands out as a rising academic whose contributions span both education and scientific research. His dedication to teaching, mentoring, and academic coordination complements his research excellence in the field of nanomaterials and theoretical physics. With his active engagement in scholarly communication, peer review, and training initiatives, he continues to foster scientific innovation and educational excellence in Ethiopia and beyond. His career trajectory reflects not only a deep passion for physics but also a forward-looking vision for the transformative role of science in society.