Gennaro Trancone | Environmental Engineering  | Research Excellence Award

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Prof. Dr. Gennaro Trancone | Environmental Engineering  | Research Excellence Award

University of Naples “Federico II | Italy

Gennaro Trancone is a civil and environmental engineer specializing in environmental biotechnology, waste-to-energy systems, and sustainable solid-waste management. He holds a Ph.D. in Civil Systems Engineering from the University of Naples “Federico II,” where his dissertation focused on biological leaching as a sustainable method for treating construction and demolition waste. With 9 scientific documents, 155 citations, and an h-index of 7 (cited by 123 documents), his research spans anaerobic digestion, dark fermentation, biofilm reactors, renewable biogas production, and remediation of asbestos-contaminated materials. He has contributed to national and international conferences and serves as a reviewer for over 20 peer-reviewed journals. His academic experience includes teaching in soil bioengineering and supporting courses in contaminated-site remediation, sanitary engineering, and waste management. Professionally, he has served as a technical commissioner, project engineer, and consultant for wastewater treatment and marine environmental studies. His work integrates microbial processes, chemical characterization, and circular-economy strategies to create scalable, low-carbon solutions for waste valorization and environmental protection. Recognized for his multidisciplinary approach, he aims to advance biorefinery systems, eco-efficient remediation technologies, and predictive tools for environmental monitoring, contributing to sustainable development and next-generation environmental engineering practices.

Profiles : Scopus | Orcid 

Featured Publications

Bounaas, M., Haouichi, M., Gattal, B., Hamza, W., Benalia, A., Derbal, K., Benzina, M., Pizzi, A., Trancone, G., & Panico, A. (2025). “Optimization of NaOH chemical treatment parameters for biomass-based adsorbents in cationic dye removal processes” in Processes.

Achouri, O., Bianco, F., Trancone, G., & Race, M. (2025). “A critical review of anaerobic biofilm reactors for the renewable biogas production from food waste” in Journal of Environmental Chemical Engineering.

Trancone, G., Policastro, G., Spasiano, D., Race, M., Parrino, F., Fratino, U., Fabbricino, M., & Pirozzi, F. (2025). “Treatment of concrete waste from construction and demolition activities: Application of organic acids from continuous dark fermentation in moving bed biofilm reactors” in Chemical Engineering Journal.

Ferraro, A., Marino, E., Trancone, G., Race, M., Mali, M., Pontoni, L., Fabbricino, M., Spasiano, D., & Fratino, U. (2023). “Assessment of environmental parameters effect on potentially toxic elements mobility in foreshore sediments to support marine-coastal contamination prediction” in Marine Pollution Bulletin.

Veropalumbo, R., Oreto, C., Viscione, N., Pirozzi, F., Pontoni, L., Trancone, G., Race, M., & Russo, F. (2023). “Exploring the effect on the environment of encapsulated micro- and nano-plastics into asphalt mastics for road pavement” in Environmental Research.

Aditta Chowdhury | IoT (Internet of Things) Analytics | Research Excellence Award

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Mr. Aditta Chowdhury | IoT (Internet of Things) Analytics | Research Excellence Award

Chittagong University of Engineering and Technology | Bangladesh

Aditta Chowdhury is an electrical and electronic engineering researcher and academic whose work focuses on advancing biomedical signal processing, embedded systems, and sustainable energy technologies. He holds both a Bachelor of Science and a Master of Science in Electrical and Electronic Engineering from the Chittagong University of Engineering and Technology, graduating with top academic distinction. His professional journey includes teaching and research roles in reputed engineering institutions, where he has contributed to curriculum development, laboratory instruction, and collaborative research. His research experience spans FPGA-based biomedical signal processing, photoplethysmogram-driven cardiovascular and metabolic disease detection, multimodal physiological signal analysis, plasmonic biosensing, microgrid feasibility assessment, and low-power VLSI system design. He has published extensively in high-impact journals and international conferences, demonstrating expertise in hardware–software co-design, machine learning applications in healthcare, and emerging sensor technologies. His work has resulted in several innovative solutions, including cardiovascular disease classifiers, hypertension detection systems, EOG-based eye-movement processors, and microgrid sustainability assessments. He has received multiple academic scholarships and awards recognizing his exceptional academic performance and research accomplishments. Driven by a commitment to impactful scientific contribution, he aims to continue developing intelligent, efficient, and accessible engineering solutions through interdisciplinary research and innovation.

Profile : Google Scholar

Featured Publications

Chowdhury, A., Das, D., Eldaly, A.B.M., Cheung, R.C.C., & Chowdhury, M.H. (2024). “Photoplethysmogram-based heart rate and blood pressure estimation with hypertension classification.” IPEM–Translation, 100024.

Joy, J.D., Rahman, M.S., Rahad, R., Chowdhury, A., & Chowdhury, M.H. (2024). “A novel and effective oxidation-resistant approach in plasmonic MIM biosensors for real-time detection of urea and glucose in urine for monitoring diabetic and kidney disease.” Optics Communications, 573, 131012.

Chowdhury, A., Das, D., Hasan, K., Cheung, R.C.C., & Chowdhury, M.H. (2023). “An FPGA implementation of multiclass disease detection from PPG.”
IEEE Sensors Letters, 7(11), 1–4.

Islam, M.A., Chowdhury, A., Jahan, I., & Farrok, O. (2024). “Mitigation of environmental impacts and challenges during hydrogen production.”
Bioresource Technology, 131666.

Chowdhury, A., Das, D., Cheung, R.C.C., & Chowdhury, M.H. (2023). “Hardware/software co-design of an ECG–PPG preprocessor: A qualitative and quantitative analysis.”
Proceedings of the 2023 International Conference on Electrical, Computer and Communication Engineering, 9.

Fangdi Ye | Offshore Wind Power | Research Excellence Award

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Mr. Fangdi Ye | Offshore Wind Power | Research Excellence Award

Zhejjiang Provincial Energy Group Company Ltd | China

Mr. Fundi is an accomplished energy-sector professional associated with Zhejiang Provincial Energy Group Company Ltd., where he contributes to the advancement of China’s offshore wind power initiatives. He holds an academic background in engineering and renewable energy management, building a solid foundation for his work in large-scale clean-energy development. Throughout his career, he has gained extensive experience in project planning, offshore infrastructure deployment, and strategic energy transition programs, working on initiatives that support regional sustainability goals and national carbon-neutral ambitions. His professional interests include offshore turbine technology, grid integration, marine environmental impact assessment, and the long-term scalability of renewable energy systems. Mr. Fundi has participated in collaborative research efforts with academic and industry partners, focusing on innovation in offshore wind operations and maintenance. He has been recognized within the sector for his contributions to technology modernization and efficiency improvements in coastal wind projects. His ongoing work reflects a commitment to accelerating the deployment of clean, reliable energy resources while promoting responsible environmental stewardship. Overall, Mr. Fundi’s career illustrates a forward-looking vision centered on renewable-energy innovation and the strategic development of China’s offshore wind power capabilities.

Profiles : Scopus | Orcid

Featured Publications

Xiao, T., Lian, J., Ye, F., Xiong, D., & Hao, X. (2024). Experimental and numerical study on motion characteristics of a bucket foundation during immersion process. Ocean Engineering. https://doi.org/10.1016/j.oceaneng.2024.117782

Ye, F., Lian, J., Xiao, T., Xiong, D., Wang, H., Guo, Y., & Shao, N. (2024). Behavior Analysis of a Bucket Foundation with an Offshore Wind Turbine during the In-Water Sinking Process. Journal of Marine Science and Engineering. https://doi.org/10.3390/jmse12030494

Ye, F., Lian, J., Xiong, D., Wang, H., Guo, Y., Wang, P., & Xiao, T. (2023). Effects of damping plate on the motion response of transport ships under waves. Applied Ocean Research. https://doi.org/10.1016/j.apor.2023.103507

Lian, J., Ye, F., Wang, P., Guo, Y., Wang, H., Xiao, T., & Xiong, D. (2023). Integrated transportation of offshore wind turbine and bucket foundation based on a U and K shaped assembled platform. Ocean Engineering. https://doi.org/10.1016/j.oceaneng.2023.114096

Ye, F.-D., Lian, J.-J., Guo, Y.-H., Wang, H.-J., Xiao, T.-R., Xiong, D.-Z., & Yu, T.-S. (2023). Stability Study on the Bucket Foundation with Multi-Compartment During the Floating-up Process Considering Air Compressibility. China Ocean Engineering. https://doi.org/10.1007/s13344-023-0081-8

Xiaoxia Yu | Data Analysis Innovation |  Best Scholar Award  

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Mr. Xiaoxia Yu | Data Analysis Innovation |  Best Scholar Award  

Chongqing University of Technology | China

Dr. Xiaoxia Yu is a scholar in mechanical engineering whose work advances intelligent diagnostics and predictive maintenance for large-scale rotating machinery, particularly wind turbines. With a Ph.D. in Mechanical Engineering and earlier degrees in Vehicle Engineering and Armored Vehicle Engineering, she has built a strong interdisciplinary foundation that integrates mechanical systems knowledge with advanced computational modeling. Her research spans fault diagnosis, health assessment, digital twin systems, graph neural networks, reinforcement learning, and signal processing, supported by a growing publication record that includes 29 documents, 477 citations by 448 documents, and an h-index of 7. As a Lecturer, she leads research projects funded by regional scientific agencies and has contributed to national-level R&D initiatives related to machinery health management. Her work appears in high-impact journals, and she has secured patents focused on structural health monitoring, image recognition, and intelligent fault detection. Recognized with competitive grants and academic honors, she continues to influence the fields of renewable energy reliability and smart manufacturing. Through her commitment to innovation, research leadership, and engineering application, she is emerging as a key contributor to the development of intelligent, data-driven mechanical health monitoring systems.

Profiles : Scopus | Orcid | Google Scholar

Featured Publications

Yu, X., Tang, B., & Zhang, K. (2021). Fault Diagnosis of Wind Turbine Gearbox Using a Novel Method of Fast Deep Graph Convolutional Networks. IEEE Transactions on Instrumentation and Measurement, 70, 1–14.

Yu, X., Tang, B., & Deng, L. (2023). Fault Diagnosis of Rotating Machinery Based on Graph Weighted Reinforcement Networks Under Small Samples and Strong Noise. Mechanical Systems and Signal Processing, 186, 109848.

Zhang, K., Tang, B., Deng, L., & Yu, X. (2021). Fault Detection of Wind Turbines by Subspace Reconstruction‑Based Robust Kernel Principal Component Analysis. IEEE Transactions on Instrumentation and Measurement, 70, 1–11.

Li, B., Tang, B., Deng, L., & Yu, X. (2020). Multiscale Dynamic Fusion Prototypical Cluster Network for Fault Diagnosis of Planetary Gearbox Under Few Labeled Samples. Computers in Industry, 123, 103331.

Xiong, P., Tang, B., Deng, L., Zhao, M., & Yu, X. (2021). Multi‑block Domain Adaptation with Central Moment Discrepancy for Fault Diagnosis. Measurement, 169, 108516.

Ashutosh K Giri | Engineering | Best Researcher Award

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Dr. Ashutosh K Giri | Engineering | Best Researcher Award

Government Engineering College Bharuch | India

Dr. Ashutosh K. Giri is an Assistant Professor in the Department of Electrical Engineering at Government Engineering College, Bharuch, Gujarat, India, with over 20 years of teaching and research experience. He earned his Ph.D. from Sardar Vallabhbhai National Institute of Technology (SVNIT), Surat, focusing on control algorithms for power quality issues in wind-based distributed power generation systems. He also holds an M.E. in Electrical Engineering from L.D. College of Engineering, Gujarat University, and a B.Tech in Electrical Engineering from G.B. Pant University of Agriculture and Technology, Pantnagar. Dr. Giri’s research interests include renewable energy power converters, microgrid topology, operation and control, power quality enhancement, electric vehicle technologies, and adaptive control algorithms. He has published extensively in leading journals including IEEE, IET, Springer, Wiley, Elsevier, and Taylor & Francis, authored and edited multiple international books, and contributed to state- and national-level funded research projects. His work has been cited 478 times across 234 documents, with an h-index of 14, reflecting his significant impact in the field. Recognized among the top 2% of scientists globally, Dr. Giri continues to advance research and innovation in distributed generation systems and renewable energy, mentoring students and contributing to the scientific community through high-quality research and academic leadership.

Profiles : Scopus Orcid | Google Scholar

Featured Publications

Joshi, D., Deb, D., & Giri, A. K. (2025). “Metaheuristic adaptive input output feedback linearization control for BLDC motor drive” in IEEE Transactions on Consumer Electronics.

Kanojia, S. S., Suthar, B. N., & Giri, A. K. (2025). “Hybrid optimization approach for optimal location of electric vehicle charging station (EVCS) in distribution network considering voltage stability” in Smart Grids and Sustainable Energy.

Kundu, S., Giri, A. K., & Kadiyan, S. (2025). “An adaptive mixed-step size normalized least means fourth control approach for stand-alone power generation system considering dynamic conditions” in IEEE Journal of Emerging and Selected Topics in Power Electronics.

Bhatt, K. A., Bhalja, B. R., & Giri, A. K. (2024). “Controlled single-phase auto-reclosing technique for shunt reactor compensated lines in electrical energy systems transmission lines” in International Journal of Ambient Energy.

Parmar, D. B., & Giri, A. K. (2024). “Integration of field-oriented and steady-state linear Kalman filter control in PMSG-based grid-connected system for improving voltage control and power balance operation” in Electrical Engineering.

Sven Marc Henri Colen | Qualitative Research | Best Researcher Award

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Mr. Sven Marc Henri Colen | Qualitative Research | Best Researcher Award

Technical University Munich | Germany

Mr. Sven Marc Henri Colen PhD candidate in Sustainable Corporate Management at the Technical University of Munich, Sven Marc Henri Colen focuses his research on the green relocation of industrial production to developing countries, with a publication in Business Strategy and the Environment and academic engagements at UC Berkeley and international conferences. He holds a Master’s degree in Market-oriented Management (Top 5%) from the Catholic University of Eichstätt-Ingolstadt and a Bachelor’s degree in Law and Economics from the University of Augsburg, complemented by study experiences in Japan and South Korea. Professionally, he served as a Senior Consultant at Roland Berger, leading large-scale sustainability and decarbonization projects across the steel, energy, aviation, and automotive sectors. His consulting work emphasized green hydrogen, carbon reduction strategies, and sustainable business transformations. Actively involved in social entrepreneurship and mentoring, he co-founded a personal development start-up and supports student consultancies across Germany. His research and professional interests lie in corporate sustainability, industrial decarbonization, and green technology transitions. Recipient of several international scholarships, including the DAAD Green Hydrogen Fellowship, he combines academic rigor with practical impact, aiming to foster sustainable industrial transformation and global climate action through interdisciplinary and evidence-based management approaches.

Profile : Orcid

Featured Publications

Colen, S., & Mohnen, A. (2025, November). Between sunlight and sales: Market access constraints and conceptualizing the renewables pull effect.

Colen, S., & Mohnen, A. (2025, May). Unpacking the Renewable Pull Effect: Conditions for Green Industrial Relocation.

Colen, S. (2021, March). NTT International — Transforming a Japanese Keiretsu into a Tech Giant.

Decheng Li | Engineering | Best Researcher Award

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Mr. Decheng Li | Engineering | Best Researcher Award

Lanzhou University of Technology | China

Dr. Decheng Li is a dedicated scholar and researcher at the School of Automation and Electrical Engineering, Lanzhou University of Technology, China. He obtained his academic training in electrical engineering and automation, focusing on intelligent control systems, robotics, and power electronics. With extensive teaching and research experience, Dr. Li has contributed significantly to the advancement of automation technologies and intelligent systems applications in industrial environments. His research interests encompass intelligent control theory, optimization algorithms, renewable energy integration, and advanced signal processing techniques for control systems. Dr. Li has authored and co-authored numerous papers in leading international journals and conferences, reflecting his commitment to academic excellence and technological innovation. He has been involved in several national and provincial research projects, fostering collaboration between academia and industry. In recognition of his contributions, Dr. Li has received multiple academic awards and honors for his outstanding research and teaching performance. He continues to mentor graduate students and promote interdisciplinary research to solve real-world engineering challenges. Dr. Li remains committed to advancing automation and intelligent systems for sustainable industrial development and the future of smart technologies.

Profile: Orcid

Featured Publication

Liu, J., Li, D., & Chen, H. (2025). “Robust hybrid decentralized controller design for Voice Coil Actuator-Fast Steering Mirror system in high-precision optical measurements.

Maatouk Khoukhi | Bio Materials | Best Researcher Award

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Assoc. Prof. Dr. Maatouk Khoukhi | Bio Materials | Best Researcher Award

United Arab Emirates University | United Arab Emirates

Assoc. Prof. Dr. Maatouk Khoukhi holds a PhD in Machine Intelligence & Systems Engineering (Tohoku University, Japan 2004), an MSc in Renewable Energy (Algeria 1993) and a BSc in Mechanical Engineering (Algeria 1991). He has held academic appointments at Sultan Qaboos University (Oman), King Fahd University of Petroleum & Minerals (Saudi Arabia), University of Sharjah (UAE) and since 2017 at United Arab Emirates University (UAE) in Architectural Engineering. His research focuses on solar energy systems, building energy conservation, HVAC systems and sustainable built-environment technology. According to his UAEU profile he has produced 36 journal articles and 9 conference contributions (4 conference articles + 2 other papers) to date. Bibliometric data from AD Scientific Index lists his h-index as 16, total citations approximately 772, and about 53 papers with i10-index in that source. He has received multiple awards—including “International Research Scientist Award” (2024), and repeated recognition at UAEU for publishing in the top 5% of journals (2019-2023). In summary, Dr Khoukhi is an accomplished international academic with a strong publication record, recognised research impact, and significant contributions in building energy and solar technology.

Profiles : Scopus | Orcid

Featured Publications

Khoukhi, M., Gomez, A., Dar Saleh, A., Alkaabi, M., & Muhsenah, H. (2024). “Enhancing green building technologies and solutions in UAE university campus: a comprehensive assessment and validation approach.” Buildings.

Khoukhi, M. (2023). “Potential of form-pocketed design in mitigating heat in a university educational glazed-curtained building in the desert climate of UAE.” Energy and Buildings.

Kutty, N., Barakat, D., & Khoukhi, M. (2023). “A French residential retrofit toward achieving net-zero energy target in a Mediterranean climate.” Buildings.

Abdullah, A. K., Darsaleh, A., Abdelbaqi, S., & Khoukhi, M. (2022). “Thermal performance evaluation of window shutters for residential buildings: a case study of Abu Dhabi, UAE.” Energies.

Mohammad, A. F., Dar Saleh, A. F., Khoukhi, M., & Al-Marzouqi, A. H. (2022). “A new method for capturing CO₂ from effluent gases using a rice-based product.” Energies.

Arun Gupta |  Fluid Mechanics | Best Researcher Award

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Dr. Arun Gupta |  Fluid Mechanics | Best Researcher Award

University Institute of Engineering And Technology | India

Dr. Arun Kumar Gupta is an accomplished academician and researcher in the field of Chemical Engineering with over twenty-three years of teaching and research experience. He is currently serving as an Associate Professor at the University Institute of Engineering and Technology, Chhatrapati Shahu Ji Maharaj University, Kanpur. Dr. Gupta holds a B.Tech in Chemical Engineering from UIET, CSJMU, an M.Tech, and a Ph.D. in Chemical Engineering from IIT Kanpur. His research interests encompass process modeling and simulation, sustainable chemical processes, environmental engineering, smart farming systems, and the application of IoT and machine learning in chemical engineering. With 27 publications, 14 edited chapters, 3 books, and 1 completed project under the CV Raman Scheme, he has made significant scholarly contributions. He has organized and participated in numerous workshops, conferences, and faculty development programs and has been recognized with several honors, including the “Excellence in Academics Award” at the INDO–THAI International Excellence Awards 2024 and a Gold Medal in the NPTEL ASPEN course. Dr. Gupta’s innovative work has also led to two patents in smart irrigation and sustainable reactor design. Dedicated to advancing engineering education and research, he continues to inspire students and contribute to technological innovation.

Profiles : Orcid Google Scholar

Featured Publications

Chandra, A.K., Khan, W., Gupta, A.K., Patel, P.B., & Niranjan, R.S. (2025). “E‐Waste: A Leading Hazardous Waste.” In Global Waste Management (pp. 29–61).

Lal, A., Gupta, A.K., Kumar, A., & Indu, N.K.Y. (2010). “Manufacture and study of physico-chemical properties of Karanja bio-diesel.” In Proceedings on Renewable Energy and Sustainable Biofuels (Vol. 4).

Gupta, G.D., & Arun Kumar, G. (2022). “Enhancement in activity and reusability of dry Amberlyst-15 catalyst by thermal treatment for production of biodiesel from Karanja oil.” In Asian Journal of Chemistry, 35(1), 62–68.

Gupta, A.K., & Deo, G. (2018). “A single-step process to convert Karanja oil to fatty acid methyl esters using Amberlyst-15 as a catalyst.” In Chemical and Biochemical Engineering Quarterly, 32(1), 1–10.

Chiu, K., Gupta, A., Afxentiou, T., Ashraf, A., Kanani, R., Rajaguru, K., Bhatt, N., et al. (2025). “Impact of multiprofessional radiotherapy peer review on multidisciplinary team meeting staging in head and neck cancer.” In Clinical Oncology, 38, Article 103696.

Gupta, A.K. (2023). “Various methods for enhancement in heterogeneous catalyzed biodiesel production reaction rate.” In Journal of the Indian Chemical Society, 100(100970), 4.

Amanuel Kachiko | Electrica Power Engineering | Best Faculty Award

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Mr. Amanuel Kachiko | Electrica Power Engineering | Best Faculty Award

Haramaya University | Ethiopia

Amanuel Kachiko is a Lecturer and Researcher in Electrical Power Engineering at Haramaya University, Ethiopia, with over eight years of academic and research experience. He holds BSc and MSc degrees in Electrical and Computer Engineering and Electrical Power Engineering, with specialized training in reliability of power systems, renewable energy, grid and off-grid power systems, and optimization of generation, transmission, and distribution networks. His expertise spans simulation tools such as MATLAB, ETAP, PSAT, DigSILENT, and advanced programming for engineering applications. Amanuel’s research interests focus on smart grids, renewable energy integration, power system reliability, and AI-based solutions for energy systems, with several peer-reviewed publications in leading journals including Energy (Elsevier). His contributions extend to applied projects such as the design of automated health, insurance, and ambulance management systems, and the development of automated performance management systems for regional utilities in Ethiopia. He has also completed international certifications in AI, data science, cybersecurity, and research publishing, and actively contributes as a peer reviewer for scientific journals. With a commitment to innovation, teaching, and community-focused projects, Amanuel continues to explore solutions for sustainable electrification, smart grid design, and data-driven energy optimization, shaping the future of energy transitions in developing regions and beyond.

Profiles : Scopus | Orcid 

Featured Publication

“A feasibility analysis of PV-based off-grid rural electrification for a pastoral settlement in Ethiopia”