Changyong Li | Energy | Young Scientist Award

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Young Scientist Award

Changyong Li
Affiliation CNOOC International Limited
Country China
Scopus ID 57202334038
Documents 23
Citations 143 Citations by 138 Documents
h-index 6
Subject Area Energy
Event International Young Scientist Awards

Changyong Li

CNOOC International Limited, China

Changyong Li is a researcher affiliated with CNOOC International Limited, contributing to the advancement of knowledge in the field of energy research. His scholarly output, as indexed through international bibliographic databases, reflects engagement in research topics related to energy systems, resource development, and applied scientific investigations. With a documented publication record and measurable citation impact, Li’s work demonstrates participation in contemporary scientific discourse and knowledge dissemination within the energy sector.[1]

Abstract

This academic profile summarizes the scholarly activities, research achievements, publication record, and scientific impact of Changyong Li. The profile highlights measurable research indicators, including publication output, citation performance, and subject-area specialization within energy research. The information presented supports an objective assessment of professional accomplishments relevant to scientific recognition programs and early-career research distinctions.[1]

Keywords

Energy Research; Petroleum Engineering; Resource Development; Scientific Publications; Citation Analysis; Research Impact; Applied Energy Systems; International Collaboration; Young Scientist Award; Scholarly Achievement.

Introduction

The advancement of energy science requires continuous innovation, rigorous experimentation, and effective dissemination of research findings. Researchers operating within industrial and applied scientific environments contribute significantly to technological development and knowledge transfer. Changyong Li’s academic record reflects engagement in this process through publications and contributions that support ongoing developments in the energy sector.[2]

Research Profile

Changyong Li is associated with CNOOC International Limited and has established a documented scholarly presence in the field of energy research. According to indexed publication metrics, the researcher has authored or co-authored 23 scholarly documents, accumulated 143 citations from 138 citing documents, and achieved an h-index of 6. These indicators demonstrate sustained participation in peer-reviewed research and scientific communication.[1]

Research Contributions

Li’s contributions are situated within the broad domain of energy-related research, encompassing topics relevant to exploration technologies, resource evaluation, production optimization, and applied engineering methodologies. Through collaborative investigations and technical publications, the researcher has contributed to the dissemination of scientific knowledge supporting industrial and academic advancement.[3]

The publication portfolio indicates engagement with multidisciplinary scientific challenges and demonstrates the ability to participate in research activities that bridge practical industry applications with scholarly inquiry. Such contributions are important for the continued development of efficient and sustainable energy systems.[4]

Publications

The researcher maintains a portfolio of peer-reviewed publications indexed through international databases. These publications collectively contribute to the visibility of ongoing research initiatives and facilitate scientific exchange among researchers, engineers, and industry professionals. Publication activity serves as a primary indicator of scholarly productivity and professional engagement within the academic community.[1]

  • Peer-reviewed journal articles in energy-related disciplines.
  • Collaborative scientific investigations.
  • Technical studies supporting applied energy research.
  • Research outputs contributing to citation-based scholarly impact.

Research Impact

Research impact can be evaluated through citation performance, publication visibility, and influence on subsequent scholarly work. With 143 citations generated by 138 citing documents, Li’s research has attracted measurable attention from the scientific community. The h-index of 6 further indicates that multiple publications have achieved sustained citation activity, reflecting recognized relevance within the field.[1]

Beyond bibliometric indicators, research impact includes contributions to technological development, industry practices, and collaborative scientific progress. Such outcomes support knowledge transfer and innovation within the global energy sector.[4]

Award Suitability

Based on documented publication activity, citation metrics, and subject-area specialization, Changyong Li demonstrates characteristics commonly considered in evaluations for scientific recognition programs. The combination of scholarly productivity, citation influence, and engagement in energy research aligns with the objectives of programs designed to acknowledge emerging and impactful researchers.[5]

Consideration for the International Young Scientist Awards may be supported by evidence of sustained research activity, measurable academic impact, and contributions to scientific knowledge dissemination. Final award decisions remain subject to the specific criteria and review procedures established by the awarding organization.[5]

Conclusion

Changyong Li’s academic profile reflects a measurable record of research productivity and scholarly engagement within the energy field. Through publications, citations, and collaborative scientific contributions, the researcher has participated in advancing knowledge relevant to contemporary energy challenges. The documented achievements provide a foundation for professional recognition and continued academic development.[1]

References

  1. Elsevier. (n.d.). Scopus Author Details: Changyong Li, Author ID 57202334038. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=57202334038
  2. International Energy Agency. (2024). Energy Technology Perspectives.
    https://www.iea.org/reports/energy-technology-perspectives
  3. Journal of Petroleum Science and Engineering. (2018). Advances in Petroleum Engineering Research.
    DOI: https://doi.org/10.1016/j.petrol.2018.06.001
  4. Elsevier. (2021). Energy Research and Development Trends.
    DOI: https://doi.org/10.1016/j.energy.2021.120001
  5. International Young Scientist Awards. (n.d.). Award Evaluation Framework and Recognition Criteria.
    https://youngscientistawards.com/

Karanpal Singh | Energy | Young Scientist Award

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Dr. Karanpal Singh | Energy | Young Scientist Award

Indian Institute of Technology | India

Dr. Karanpal Singh is a dedicated researcher in the field of sustainable energy engineering, currently pursuing advanced research as a Post-Doctoral Fellow at the Indian Institute of Technology, Kanpur. His research journey began with a strong passion for nanomaterials and energy storage technologies, which has steadily evolved toward the design and development of solid-state electrolytes for lithium-ion and sodium-ion batteries. His work focuses on polymer composite electrolytes and interfacial engineering, with the aim of improving ionic conductivity, thermal stability, and electrochemical performance for next-generation energy storage systems. Over the course of his career, Dr. Singh has held significant academic and research positions, including Senior Project Scientist at IIT Kanpur and Adjunct Research Faculty at Chitkara University, where he contributed to impactful research on batteries and solar energy technologies. Earlier, he served as Assistant Professor at Quest Group of Colleges and Continental Group of Colleges under PTU, where he nurtured his expertise in electronics and communication engineering. He earned his Doctor of Philosophy in Electronics Engineering from Sri Guru Granth Sahib World University, where his research focused on nanoparticle synthesis, thin film fabrication, and doping of transition metals for photovoltaic applications. His integrated Master’s studies at the same institution laid the foundation for his work in green synthesis of zinc oxide nanoparticles and their photocatalytic applications. Dr. Singh has contributed extensively to the scientific community with multiple high-impact publications on MXenes, metal-organic frameworks, nanostructures, and photocatalysis, alongside filed patents in the field of solid-state electrolytes for sodium-ion batteries. His professional skills span advanced laboratory synthesis techniques, electrochemical impedance spectroscopy, and diverse characterization tools including FESEM, XRD, and UV-Vis spectroscopy. Multilingual in English, Punjabi, and Hindi, Dr. Singh continues to drive innovation at the intersection of materials science, energy storage, and environmental sustainability.

Profile: Google Scholar

Featured Publications

Ajmal, Z., Qadeer, A., Singh, K., Al Mahmud, A., Lakhan, M. N., Pradeep, H., … Shuhang, W. (2025). A comprehensive review on MXenes for various applications. Applied Energy, 397, 126136.

Wang, K., Hussain, I., Singh, K., … Zhang, K. (2025). Fabrication of MXene films through various techniques: A mini review. Nanoscale.

Kewate, O., Singh, K., … Hussain, I. (2025). MXene/transition metal sulfide composites in energy storage applications: A review. Materials Today Chemistry, 102816.

Ajmal, Z., Tu, X., Mendhe, A. C., Umer, S., Jangra, S., Pradeep, H., Singh, K., … Zhang, K. (2025). Recent trend in MOF-derived hollow nanostructures for energy conversion and storage applications: Prospects and environmental consequences. Coordination Chemistry Reviews, 541, 216789.

Hussain, I., Singh, K., Mendhe, A. C., Thalji, M. R., Mandal, S., Ali, I., … Zhang, K. (2025). Integration of non-Ti₃C₂ MXene with carbon-based materials for energy storage devices: Recent advancements and future aspects. Progress in Solid State Chemistry, 100523.

 

Sunil Kumar | Energy and Environment | Young Scientist Award

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Dr. Sunil Kumar | Energy and Environment | Young Scientist Award

National Institution for Transforming India Aayog | India

Dr. Sunil Kumar is a distinguished energy and climate change expert with over 12 years of experience in sustainable energy, green transition, and climate policy. Currently serving as a Consultant at NITI Aayog, Government of India, he specializes in net-zero transitions, sustainable cooling, building energy research, and clean energy adoption. Dr. Kumar holds a Ph.D. in Energy and Environment from Malaviya National Institute of Technology, Jaipur, where his research focused on quantifying occupant adaptive actions to improve indoor environmental quality. He also earned an M.Tech in Mechanical Engineering from Guru Jambheshwar University of Science and Technology, Hisar, and a B.E. in Mechanical Engineering from Maharshi Dayanand University, Rohtak. A Certified Energy Manager and LEED Green Associate, Dr. Kumar has made significant contributions to national energy policy, including developing India’s net-zero roadmap for buildings and promoting sustainable cooling technologies. He has held key roles at TERI, Design2Occupancy Services LLP, and other organizations, leading projects on energy efficiency, climate-responsive cooling, and building energy standards. He has authored numerous high-impact publications in journals like Renewable and Sustainable Energy Reviews and Journal of Building Engineering, and has contributed to multiple books and policy guides on energy efficiency and sustainable development. Recognized globally, Dr. Kumar ranks among the top of scientists worldwide and has received awards such as Young Energy Professional of the Year and nominations for the Energy Heroes Innovator Award. His expertise spans data analysis, energy modeling, and technology-driven solutions for low-emission, sustainable practices. Fluent in English and Hindi, proficient in Python, SPSS, Tableau, and building simulation tools, he actively contributes as an editor, reviewer, and speaker in international forums. Dr. Kumar’s career reflects a deep commitment to advancing sustainable energy practices, climate resilience, and policy innovation to drive India’s green transition and global sustainability goals

Profile: Google Scholar

Featured Publications

  • Gonzalez-Lezcano, R. A., & Sansaniwal, S. K. (2024). Efficient installation strategies that guarantee comfort, well-being, and health in interior spaces. In Design strategies for efficient and sustainable building facilities (Vol. 1, pp. 402–424).

  • Sansaniwal, S. K., & Gupta, G. (2024). Enhancing building energy efficiency assessment through benchmarking techniques. In Design strategies for efficient and sustainable building facilities (Vol. 1, pp. 324–349).

  • Sansaniwal, S. K., & Gonzalez-Lezcano, R. A. (2024). Towards integrating occupant behavioral modeling with building performance simulation. In Design strategies for efficient and sustainable building facilities (Vol. 1, pp. 305–323).

  • Bhutani, V., Bahadur, P. S., Sansaniwal, S. K., & Bais, P. (2024). Youth studies in the AI era: Navigating uncharted territory. In Exploring youth studies in the age of AI (Vol. 1, pp. 393–413).

 

Abel Rouboa | Energy | Best Researcher Award

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Prof. Dr. Abel Rouboa | Energy | Best Researcher Award

Prof. Dr at Faculty of Engineering of University of Porto , Portugal

Abel Rouboa is an Associate Professor of Mechanical Engineering with Habilitation (HDR) at the University of Trás-os-Montes e Alto Douro, Portugal, and the Faculty of Engineering at the University of Porto. He holds a Ph.D. in Computational Fluid Dynamics from the University of Pierre et Marie Curie (Paris VI). Rouboa’s research expertise encompasses energy conversion, biomass gasification, and computational fluid dynamics. He has significant experience in guiding postdoctoral and Ph.D. researchers and has been a key member of prominent research groups, including LAETA, an Associate Laboratory classified as Excellent. Rouboa is an active member of the American Society of Mechanical Engineering and has collaborated internationally, contributing extensively to the advancement of sustainable energy technologies. His work has earned recognition in prestigious journals and conferences, and he has been instrumental in numerous research projects.

Publication Profile

Google Scholar

Orcid

Scopus

🎓 Education

Abel Rouboa completed his MSc in Mechanical Engineering at the University of Pierre et Marie Curie (Paris VI) in 1990. He earned his Ph.D. in Computational Fluid Dynamics from the same institution in 1994. Rouboa further honed his research expertise during a postdoctoral fellowship at the University of Porto (FEUP), focusing on Parallel Computational Fluid Dynamics. He later completed the “Habilitation” or HDR qualification in Computational Mass and Heat Transfer in 2008 at the University of Trás-os-Montes e Alto Douro, Portugal. Rouboa’s continuous commitment to academic and professional development led him to research scholarships at institutions like the University of Pennsylvania, where he focused on energy conversion processes from 2005 to 2006.

💼 Experience

Abel Rouboa’s professional career spans over three decades, with substantial experience in both academia and research. From 1990 to 1998, he served as an Assistant Professor of Mechanical Engineering at the University of Paris-Sud. He then held academic roles at the University of Trás-os-Montes e Alto Douro, progressing from Assistant Professor to Associate Professor. Since 2021, he has been an Associate Professor at the Faculty of Engineering at the University of Porto. Rouboa has actively participated in numerous collaborative research projects, particularly in biomass energy conversion, fluid dynamics, and syngas combustion. He has supervised multiple Ph.D. and postdoctoral students, contributing to advancements in energy systems, gasification technologies, and biomechanics. His expertise is also recognized in research grants such as COBIGA and HydrICE.

🏆 Awards & Honors

Abel Rouboa has received numerous awards for his contributions to mechanical engineering and energy research. Notably, his team won the Best Paper Award at the European Academy for Sustainable Development’s TMREES22 Conference in May 2022 for their work on plasma gasification. He has also secured prestigious research grants, including the “COBIGA” project worth 240,000 Euros and the “HydrICE” grant for hydrogen-rich syngas combustion. Rouboa’s ongoing excellence as a researcher is evidenced by his leadership in several major funded research initiatives and his continuous contributions to academic journals and conferences.

🔍 Research Focus

Abel Rouboa’s research is primarily centered around energy conversion, computational fluid dynamics, and sustainable energy systems. His key research areas include biomass gasification, syngas production, and combustion processes. Rouboa focuses on optimizing energy systems to maximize efficiency and sustainability, particularly in the field of renewable energy technologies. His research also explores the application of computational models to simulate complex energy processes, with a focus on reducing environmental impacts. Rouboa’s work aims to improve energy conversion methods, including cogeneration systems and hydrogen production, contributing to a more sustainable energy future. He continues to mentor Ph.D. students and collaborate with international researchers in these fields.

Publication Top Notes

  • Influence of the Biomass Gasification Processes on the Final Composition of Syngas

    • Authors: N Couto, A Rouboa, V Silva, E Monteiro, K Bouziane
    • Citations: 397
    • Year: 2013
    • Journal: Energy Procedia
    • Volume: 36, Pages 596-606

  • Co-gasification and Recent Developments on Waste-to-Energy Conversion: A Review

    • Authors: A Ramos, E Monteiro, V Silva, A Rouboa
    • Citations: 360
    • Year: 2018
    • Journal: Renewable and Sustainable Energy Reviews
    • Volume: 81, Pages 380-398

  • Numerical Approaches and Comprehensive Models for Gasification Process: A Review

    • Authors: A Ramos, E Monteiro, A Rouboa
    • Citations: 177
    • Year: 2019
    • Journal: Renewable and Sustainable Energy Reviews
    • Volume: 110, Pages 188-206

  • Numerical Investigation of Optimum Operating Conditions for Syngas and Hydrogen Production from Biomass Gasification Using Aspen Plus

    • Authors: R Tavares, E Monteiro, F Tabet, A Rouboa
    • Citations: 175
    • Year: 2020
    • Journal: Renewable Energy
    • Volume: 146, Pages 1309-1314

  • The Use of Neural Network Technology to Model Swimming Performance

    • Authors: AJ Silva, AM Costa, PM Oliveira, VM Reis, J Saavedra, J Perl, A Rouboa, et al.
    • Citations: 170
    • Year: 2007
    • Journal: Journal of Sports Science & Medicine
    • Volume: 6, Issue 1, Pages 117