Yang Chen | Energy and Sustainability | Best Researcher Award

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Mr. Yang Chen | Energy and Sustainability | Best Researcher Award

Mr. Yang Chen | Energy and Sustainability | Best Researcher Award | PhD Candidate | The Hong Kong Polytechnic University | Hong Kong 

Mr. Yang Chen is a dedicated researcher in environmental and energy economics whose work integrates advanced computational methods with policy-relevant environmental analysis, contributing significantly to the understanding of carbon emissions, pollution control, and sustainability transitions. Mr. Yang Chen’s academic foundation is rooted in his doctoral studies at The Hong Kong Polytechnic University, where he specializes in environmental modelling, causal complexity analysis, and machine-learning–assisted prediction systems. His education equips him with strong analytical abilities in econometrics, environmental impact assessment, and data-driven research methodologies, forming the backbone of his scholarly identity. Professionally, Mr. Yang Chen has engaged in several completed and ongoing research projects involving interdisciplinary teams and multi-institutional networks, allowing him to contribute to innovative work addressing global environmental and energy challenges. His research interests include carbon emission modelling, renewable energy policy evaluation, environmental pollution dynamics, and the application of fuzzy-set qualitative comparative analysis (fsQCA) combined with SHAP-based machine-learning frameworks, reflecting his commitment to methodological innovation and complex-systems thinking. Mr. Yang Chen’s research skills span statistical modelling, causal inference, policy impact analysis, machine learning for environmental prediction, scientific writing, and peer-review activities for high-impact journals, strengthening his role as a rising scholar in sustainability research. His publication record includes approximately ten papers in reputable JCR Q1 journals such as Building and Environment, Environmental Impact Assessment Review, Earth’s Future, Journal of Cleaner Production, and Journal of Environmental Management, demonstrating consistent scholarly productivity. In addition to journal articles, Mr. Yang Chen has contributed as an editorial board member to two academic books published by leading Chinese presses, reflecting recognition of his expertise. His citation metrics, including more than two hundred citations, an h-index of six, and multiple i10-index publications, further underscore the growing influence of his work. Although he is early in his career and has not yet accumulated major awards, Mr. Yang Chen’s recognition as a reviewer for top journals and his authorship in high-impact platforms demonstrate his academic credibility and emerging leadership within the research community. In conclusion, Mr. Yang Chen exemplifies the qualities of a forward-looking environmental economist whose combination of methodological innovation, strong publication output, and commitment to interdisciplinary sustainability research positions him for significant future contributions to global climate policy, environmental modelling, and academic leadership.

Profile:  ORCID | Google Scholar

Featured Publications

  1. Chen, Y., Luo, L., Feng, W., Wu, J., & Cai, W. (2025). Progressive prediction of embodied carbon emissions across stages of schematic design with machine learning. Journal of Cleaner Production. (Citations: 3)

  2. Chen, Y., Guo, X., Yi, W., Hong, J., & Wen, Q. (2025). Synergistic pollution and carbon reductions from the China National Sustainable Communities Pilot Policy. Energy. (Citations: 5)

  3. Zheng, S., Chen, Y., Hong, J., & Pu, Y. (2025). Global climate policy effectiveness analysis: Evidence from 49 countries, 1951–2018. Journal of Comparative Policy Analysis. (Citations: 2)

  4. Chen, Y., Hong, J., Wen, Q., Yi, W., & Zheng, S. (2024). The Janus-faced role of renewable energy development in global carbon reduction under renewable energy policies. Earth’s Future. (Citations: 12)

  5. Chen, Y., Lai, T., Hong, J., & Teng, Y. (2023). Path analysis of regional carbon lock-in and unlocking from a qualitative comparative perspective. In Proceedings of the International Symposium on Advancement of Construction Management and Real Estate. (Citations: 1)

  6. Chen, Y., Zhao, Z., Yi, W., Hong, J., & Zhang, B. (2023). Has China achieved synergistic reduction of carbon emissions and air pollution? Evidence from 283 Chinese cities. Environmental Impact Assessment Review. (Citations: 18)

  7. Chen, Y., Hong, J., Tang, M., Zheng, Y., Qiu, M., & Ni, D. (2022). Causal complexity of environmental pollution in China: A province-level fuzzy-set qualitative comparative analysis. Environmental Science and Pollution Research. (Citations: 40)

 

SS Sivaraju | Renewable Energy Technologies | Innovative Research Award

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Dr. SS Sivaraju | Renewable Energy Technologies | Innovative Research Award

Dr. SS Sivaraju | Renewable Energy Technologies | Innovative Research Award | Director | RVS College of Engineering and Technology | India

Dr. SS Sivaraju is an eminent academician, researcher, and IEEE Senior Member with a distinguished career spanning over three decades in Electrical and Electronics Engineering, encompassing both teaching and industry expertise. He is currently serving as the Director – IQAC and Professor & Head of the Department of Electrical and Electronics Engineering at RVS College of Engineering and Technology, Coimbatore, India, where he plays a pivotal role in institutional quality assurance, academic policy development, and research advancement. Dr. SS Sivaraju obtained his Bachelor of Engineering in Electrical and Electronics Engineering, followed by a Master’s degree in Power Electronics and Drives, and later earned his Doctor of Philosophy (Ph.D.) for his acclaimed research on the “Design of Induction Motor for Optimum Efficiency and Power Factor Using Soft Computing Techniques.” His academic journey reflects an unwavering commitment to innovation, problem-solving, and the advancement of applied electrical engineering. Professionally, Dr. SS Sivaraju has held various academic leadership positions, contributing to curriculum modernization, research collaborations, and faculty development initiatives. His extensive research portfolio includes more than 100 publications in reputed journals indexed in Scopus, Web of Science, and SCI, particularly focusing on energy optimization, smart grids, renewable energy systems, electric vehicles, and AI-driven predictive modeling. His expertise in soft computing, control systems, power electronics, and intelligent automation has contributed to significant advancements in sustainable power management and modern drive systems. Dr. SS Sivaraju is also an active research supervisor, guiding numerous doctoral scholars and postgraduate students toward impactful scientific outcomes. His recognized research skills include advanced modeling, optimization algorithms, data-driven system design, and hardware-in-the-loop testing for smart energy devices. Throughout his career, Dr. SS Sivaraju has received several academic honors and recognitions, including research excellence awards and institutional leadership commendations for his outstanding contributions to teaching, innovation, and academic governance. His IEEE Senior Membership further reflects his international engagement and scholarly influence. In addition, he has participated in numerous conferences, technical committees, and collaborative research projects with global partners, including institutions in Malaysia and the UK. In conclusion, Dr. SS Sivaraju exemplifies excellence in engineering research and education, consistently driving advancements in renewable energy integration, smart grid technology, and intelligent system design. His vision for academic excellence, sustainable innovation, and interdisciplinary collaboration continues to inspire future engineers and researchers across the global scientific community.

Profile:  Scopus | ORCID | Google Scholar

Featured Publications 

  1. Sivaraju, S. S. (2023). Optimized energy management strategy for hybrid renewable systems using soft computing approaches. Energy Reports, 9, 115–124. (Citations: 28)

  2. Sivaraju, S. S. (2022). Design and analysis of induction motor efficiency improvement using fuzzy logic control. Journal of Electrical Systems, 18(3), 450–462. (Citations: 35)

  3. Sivaraju, S. S. (2021). Smart grid optimization through artificial intelligence and IoT integration. International Journal of Electrical Power & Energy Systems, 133, 107270. (Citations: 42)

  4. Sivaraju, S. S. (2020). Modeling and simulation of electric vehicle powertrain using hybrid control algorithms. IEEE Access, 8, 185221–185230. (Citations: 39)

  5. Sivaraju, S. S. (2019). Renewable energy-based distributed generation using adaptive control mechanisms. Renewable Energy, 136, 874–883. (Citations: 46)

  6. Sivaraju, S. S. (2018). Optimization of power factor and energy loss minimization in induction motors via soft computing. Energy Conversion and Management, 171, 1203–1211. (Citations: 53)

  7. Sivaraju, S. S. (2017). Neural network-based fault diagnosis in electric drives for industrial automation. International Journal of Control, Automation and Systems, 15(5), 2134–2145. (Citations: 31)

 

Alexander Gusev | Energy and Sustainability | Best Researcher Award

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Prof. Alexander Gusev | Energy and Sustainability | Best Researcher Award

Scientific Director | Fermaltech Montenegro DOO | Montenegro

Prof. Alexander Gusev is a distinguished researcher whose education, professional experience, research interests, skills, awards and honors combine to make him a leading figure in hydrogen energy, cryogenic technology, and alternative energy systems; he holds advanced degrees in engineering mechanics, solid-state physics, and chemistry, having completed his postgraduate thesis on cryogenic vacuum systems for hydrogen refueling complexes under academic supervision, and trained extensively in physics and mathematics at top institutions; his professional career includes heading the Department of Alternative Energy and Ecology in Germany, leadership roles at STC “TATA,” the Institute of Hydrogen Economics, and Fermaltech, as well as membership and leadership in international standards bodies such as ISO/TC 197 on Hydrogen Technologies, and the European Academy of Natural Sciences; his research interests focus on hydrogen production, storage and safety (including hydrogen on-board storage, sensors, physisorption, nano-catalysis), transport of large energy flows, electrochemical systems, molecular hydrogen adsorption, cryogenic and vacuum technologies, and environmentally friendly energy systems; his research skills encompass advanced materials synthesis, catalyst characterization, hydrogen safety, cryogenic engineering, thermodynamics, reaction kinetics, nano-material fabrication, heterogeneous catalysis and material testing; he has authored 10 documents, 484 Citations, 10 h-index, contributing over 500 scientific works including patents, invention disclosures, and journal and conference publications; among his awards and honors are inclusion in the global Top-100 most cited scientists in Energetics (E-Library ranking), recipient of the K. E. Tsiolkovsky Medal for contribution to cosmonautics, membership as Academician in European and Serbian academies of natural sciences and science & arts, state recognitions in nuclear and energy sectors; given his broad leadership, international collaboration, standard-setting roles, and contributions to hydrogen safety and alternative energy, Prof. Alexander Gusev’s future holds strong potential to extend his impact via the publication of more work in high-impact Q1 journals, mentorship of upcoming scientists, participation in key editorial and keynote roles, and leading large interdisciplinary international projects that push forward sustainable hydrogen energy and ecological solutions.

Profile:  Scopus | ORCID | Google Scholar

Featured Publications

  1. Economic Aspects of Nuclear and Hydrogen Energy in the World and Russia — 2020; 133 citations

  2. Economics of Secondary Renewable Energy Sources with Hydrogen Generation — 2019; 73 citations

  3. Algorithm for Optimal Pairing of RES and Hydrogen Energy Storage Systems — 2021; 55 citations

  4. Hydrogen Production by Low-Temperature Plasma Decomposition of Liquids — 2017; 55 citations

  5. Thermodynamic Peculiarities of Low-Temperature Regeneration of Cryosorption Devices in Heat-Insulation Cavities of Hydrogenous Cryogenic Tanks — 2001; 39 citations

  6. Cleaning System for Corrosive Gases and Hydrogen — 2009; 37 citations