Takwa Hamdi | Energy Technologies | Best Researcher Award

Ms. Takwa Hamdi | Energy Technologies | Best Researcher Award

PhD Candidate in Mechanical and Energy Engineering | University of Gabes | Tunisia

Ms. Takwa Hamdi is a dedicated PhD student in Mechanical and Energy Engineering at the National Engineering School of Gabes, Tunisia, specializing in advanced combustion modeling and alternative fuels. With a strong academic foundation, she has pursued her bachelor’s, master’s, and doctoral studies in mechanical engineering with excellence, graduating as class valedictorian during her master’s program. Her research focuses on dual-fuel engine combustion, particularly the use of light alcohols and hydrogen in internal combustion engines, employing advanced numerical simulation tools such as ANSYS Forte, Matlab, Abaqus, SolidWorks, and CFD-based approaches. Driven by a passion for sustainable energy solutions, she is motivated to contribute to the development of low-emission technologies that address global energy challenges. Alongside her research, Takwa serves as an Adjunct Lecturer at the Higher Institute of Technological Studies of Gabes, where she teaches courses in dismountable assembly processes, CAD using SolidWorks, welding, and mechanical design projects, combining theoretical knowledge with hands-on applications to support student learning. She has also gained experience in developing educational materials, supervising student projects, and guiding practical workshops, which highlights her strong communication and leadership skills. Fluent in Arabic, French, and English, she is able to collaborate effectively in international and multicultural environments. Beyond her academic and teaching career, she demonstrates strengths in analytical thinking, problem-solving, and research innovation, with interests in technology, cultural exploration, and community volunteering. Motivated, research-oriented, and passionate about innovation, Takwa aims to further her expertise by contributing to cutting-edge projects in energy, combustion, and sustainability through collaborative scientific research and internships.

Profile: Scopus | LinkedIn | ResearchGate

Featured Publications

Hamdi, T., Hamdi, F., Molima, S., Domínguez, V. M., Rodríguez-Fernández, J., Hernández, J. J., & Chrigui, M. (2025). Numerical investigation of hydrogen substitution ratio effects on spray characteristics, combustion behavior, and emissions in a dual-fuel compression ignition engine.

Molima, S., Hamdi, F., Hamdi, T., Muya, G. T., Mondo, K., Amsini, S., & Chrigui, M. (2025). Effects of H2 substitution on combustion and emissions in ammonia/diesel compression ignition engine. Energy Conversion and Management, Elsevier.

Hamdi, T., Hamdi, F., Molima, S., Hernandez, J. J., & Chrigui, M. (2025). Computational analysis on the effect of methanol energy ratio on the spray and combustion pattern of a dual-fuel compression ignition engine. Journal of Energy Resources Technology, ASME.

Prof. Dr. Chenyu Wu | Energy Technologies | Best Researcher Award

Prof. Dr. Chenyu Wu | Energy Technologies | Best Researcher Award

Hohai University, China

Prof. Dr. Chenyu Wu is a distinguished academic and researcher currently serving as a Professor in Jiangsu Province at the College of Energy and Electrical Engineering, Hohai University 🇨🇳. With deep expertise in power systems and electricity markets, he has authored over 20 high-impact SCI (Q1) papers and contributed to two team standards. Prof. Wu has led numerous key national and industrial projects, including those funded by the National Natural Science Foundation and the State Grid Corporation of China. His groundbreaking research has been implemented across various regions, including Jilin, Yunnan, and Myanmar. Recognized for both academic and applied excellence, he has received top-tier honors such as the First Prize of Jiangsu Province Science and Technology Award and the National Innovation and Entrepreneurship Outstanding Postdoctoral Fellow title 🏆.

Publication Profile

🎓Education Background:

Prof. Wu earned his Ph.D. in Electrical Engineering from Southeast University (2015–2019) 🎓, following a B.S. in Electrical Engineering from Hohai University (2011–2015) 📘. His academic training laid the foundation for his advanced contributions to smart grids and integrated energy systems.

💼Professional Experience:

Prof. Wu’s professional journey includes serving as a Senior Engineer at the State Grid (Suzhou) Urban Energy Research Institute (2019–2020) 🏙️. He then transitioned to academia, where he held roles as Associate Professor at Southeast University (2020–2025) and later as a Professor at Hohai University from March 2025 onward. His experience bridges industrial engineering practice and cutting-edge academic research.

🏅Awards and Honors:

Prof. Wu’s excellence has been widely recognized. Notable accolades include the First Prize in Science and Technology of Jiangsu Province (2022) 🥇, the Bronze Award in the China Postdoctoral Innovation and Entrepreneurship Competition (2022) 🥉, and the Outstanding Doctoral Dissertation Award by the China Simulation Society (2020) 📜. He is also among the elite few chosen (<1%) for the Jiangsu “333” talent project and the National Excellent Postdoctoral Fellow title 🌟.

🔬Research Focus:

His core research areas include the optimal operation of integrated energy systems, virtual power plants, active distribution networks, and electricity market bidding strategies ⚡. He integrates concepts from distributed optimization, differential game theory, and reverse engineering to advance clean, efficient energy systems aligned with smart grid development and market transformation.

✅Conclusion:

Prof. Dr. Chenyu Wu stands as a thought leader in the evolving fields of power system optimization and energy economics. His impactful publications, prestigious awards, and active academic involvement testify to his dedication to sustainable energy innovation and system-wide transformation 🌍📈.

📚Top Publications:

A Two-Stage Game Model for Combined Heat and Power Trading MarketIEEE Transactions on Power Systems, 2019 | Cited by: 240+

Energy Trading and Generalized Nash Equilibrium in Combined Heat and Power MarketIEEE Transactions on Power Systems, 2020 | Cited by: 200+

Coordinated Optimal Power Flow for Integrated Active Distribution Network and Virtual Power Plants Using Decentralized AlgorithmIEEE Transactions on Power Systems, 2021 | Cited by: 180+

Competitive Equilibrium Analysis for Renewables Integration in Dynamic Combined Heat and Power Trading MarketIEEE Transactions on Power Systems, 2023 | Cited by: 30+

Model-Free Economic Dispatch for Virtual Power Plants: An Adversarial Safe Reinforcement Learning ApproachIEEE Transactions on Power Systems, 2023 | Cited by: 25+

Combined Economic Dispatch Considering the Time-Delay of District Heating NetworkIEEE Transactions on Sustainable Energy, 2018 | Cited by: 150+

Bi-level Optimization Model for Integrated Energy System Considering the Thermal Comfort of Heat CustomersApplied Energy, 2018 | Cited by: 180+