Prof. Chae-Ryong Cho | Secondary batteries | Best Researcher Award

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Prof. Chae-Ryong Cho | Secondary batteries | Best Researcher Award

Department of Nanoenergy Engineering/Pusan National University, South Korea.

Prof. Chae-Ryong Cho is a distinguished physicist specializing in nanoenergy engineering. Currently serving as a professor at Pusan National University (PNU) in Busan, Korea, he has made significant contributions to the fields of lithium-ion batteries, photocatalysts, and nanostructured materials. His research has been widely recognized, with numerous publications and patents to his name.

Profile

Scopus​

Education 🎓

Prof. Chae-Ryong Cho earned his Bachelor of Science (B.S.) in Physics from Pusan National University, Busan, Korea (1982-1986). He then pursued a Master of Science (M.S.) in Surface Physics at Gyeongsang National University, Jinju, Korea (1986-1988). Later, he completed his Doctor of Philosophy (Ph.D.) in Solid-State Physics at Pusan National University, Busan, Korea (1991-1995), specializing in the advanced study of solid-state materials and their physical properties.​

Experience 🏢

Prof. Chae-Ryong Cho is a Professor of Nanoenergy Engineering at Pusan National University (PNU) since 2006, specializing in secondary batteries and surface physics. He currently serves as Director of the Secondary Battery Convergence and Open Sharing System (COSS) and Secondary Battery Convergence Major at PNU (2023-Present), as well as Director of the Secondary Batteries Industry Technical Human Resource Development Center (SBitHRD) (2021-Present).

Previously, he was Dean of the College of Nanoscience & Nanotechnology at PNU (2018-2020) and a Visiting Scholar at the University of Illinois at Urbana-Champaign (2013-2014). His research experience includes roles at Korea Basic Science Institute (KBSI), Electronics and Telecommunications Research Institute (ETRI), University of Minnesota, and UIUC. His work focuses on solid-state physics, surface analysis, and secondary battery technology.

Research Interests 🔬

Lithium-ion Batteries: Focus on developing advanced anode and cathode materials.

Sodium (Na) and Potassium (K) Ion Batteries: Exploration of alternative energy storage solutions.

All-Solid-State Batteries: Researching safer and more efficient battery technologies.

In Situ Structural Analysis: Studying real-time structural changes in materials.

Electrochemical Analysis of Active Materials: Investigating the electrochemical properties of battery components.

Awards 🏆

2005: President's Award (ROK)

2018: Busan Science and Technology Award

2018: Busan Mayor Award

2021: Congratulatory Plaque from BISTEP Director

2024: Deputy Prime Minister Award, Ministry of Education

Selected Publications 📚

Realization of a 2H-Si microneedle with an ultrafast growth rate of 6.7 × 10⁴ Å·s⁻¹

Authors: S. Mun, K. Kim, S. Park, Y. Kang, H. Ahn

Journal: Semiconductor Science and Technology, 2025

Enhanced Li storage of pure crystalline-C60 and TiNb₂O₇-nanostructure composite for Li-ion battery anodes

Authors: I. Jeon, L. Yin, D. Yang, H. Ahn, C. Cho

Journal: Journal of Energy Chemistry, 2024

Citations: 3

Enhancing Li-Ion Battery Anodes: Synthesis, Characterization, and Electrochemical Performance of Crystalline C60 Nanorods with Controlled Morphology and Phase Transition

Authors: L. Yin, D. Yang, I. Jeon, M. Park, C. Cho

Journal: ACS Applied Materials and Interfaces, 2024

Citations: 3

Enhanced electrochemical performance and interdiffusion behavior of sodium ions in onion-derived freeze-dried and KOH-activated carbon for sodium-ion battery anodes

Authors: I. Jeon, T. Kim, J. Seo, D. Yang, C. Cho

Journal: Applied Surface Science, 2024

Citations: 5

Electrochemical behavior of Ag nanoparticle-incorporated Li₄Ti₅O₁₂ nanofibers as Li-ion battery anodes under visible light exposure

Authors: H. Yang, D. Yang, I. Jeon, J. Seo, C. Cho

Journal: Applied Surface Science, 2024

 

 

Dr. Elitsa Petkucheva | Electrochemistry | Best Researcher Award

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Dr. Elitsa Petkucheva | Electrochemistry | Best Researcher Award

BAS - Institute of Electrochemistry and Energy Systems, Bulgaria.

Dr. Elitsa Petkucheva is a dedicated hydrogen enthusiast committed to advancing clean energy solutions. With a robust background in engineering and a profound understanding of hydrogen fuel cells, she actively collaborates with industry leaders, government officials, and academic researchers to promote hydrogen-based applications across various sectors, including power generation, transportation, and industrial processes.

Profile

Scopus
Google Scholar​

🎓 Education

Dr. Elitsa Petkucheva holds an Executive MBA in Energy Management from the Swiss School of Business and Management Geneva, Switzerland, which she completed between March 2022 and May 2024. She earned her Ph.D. in Electrochemistry from the Acad. E. Budevski Institute of Electrochemistry and Energy Systems (IEES) in Sofia, Bulgaria, where she conducted research from September 2013 to May 2018. Prior to that, she obtained an M.Sc. in Hydrogen Technologies from the University of Chemical Technology and Metallurgy (UCTM) in Sofia, Bulgaria, graduating in June 2013. Dr. Petkucheva also holds a B.Sc. in Biotechnologies from UCTM, which she completed between September 2007 and September 2011.​

💼 Experience

Dr. Elitsa Petkucheva is currently serving as a Chief Assistant in Research and Development at the Institute of Electrochemistry and Energy Systems (IEES) within the Bulgarian Academy of Sciences, a position she has held since July 2019. Prior to this role, she worked as a Research Assistant at IEES-BAS from September 2017 to July 2019. Additionally, she gained international research experience as a Research Associate at the Laboratory of Inorganic Synthesis and Catalysis (LSCI) at École Polytechnique Fédérale de Lausanne (EPFL) in Switzerland, where she was involved in advanced research from January 2016 to January 2017.​

🔬 Research Interests

Hydrogen technologies

Electrocatalysis

Electrochemistry

Biotechnologies

Development of membrane electrode assemblies for PEM hydrogen systems

🏆 Awards

"Eurika" Foundation Honoree Diploma in the category "Young Inventor" (2021)

"Prof. Hristo Balarev" Award for prominent young scientist in the field of Inorganic Chemistry, Bulgarian Union of Chemists (November 2, 2020)

First Place in the category "Science and/or Technological Development" of the program "The Most Prominent Young People in Bulgaria 2020," part of the international movement Junior Chamber International (JCI) (May 6, 2020)

Acad. M. Drinov Prize 2020 for the best scientist (under 35 years) in the Bulgarian Academy of Sciences, in the category "Energy Resources and Energy Efficiency"

Zeno Karl Schindler Foundation Doctoral Exchange Grant (2016-2017)

📚 Selected Publications

An unconventional iron-nickel catalyst for the oxygen evolution reaction
F. Song, M. M. Busch, B. Lassalle-Kaiser, C. S. Hsu, E. Petkucheva, ...
ACS Central Science, 5(3), 558-568 (2019)Citations: 363

Ebonex supported iridium as anode catalyst for PEM water electrolysis
E. Slavcheva, G. Borisov, E. Lefterova, E. Petkucheva, I. Boshnakova
International Journal of Hydrogen Energy, 40(35), 11356-11361 (2015)Citations: 42

Gold-supported magnetron sputtered Ir thin films as OER catalysts for cost-efficient water electrolysis
E. Petkucheva, G. Borisov, E. Lefterova, J. Heiss, U. Schnakenberg, ...
International Journal of Hydrogen Energy, 43(35), 16905-16912 (2018)Citations: 29

Highly KOH doped para-polybenzimidazole anion exchange membrane and its performance in Pt/TinO2n−1 catalyzed water electrolysis cell
H. Penchev, G. Borisov, E. Petkucheva, F. Ublekov, V. Sinigersky, I. Radev, ...
Materials Letters, 221, 128-130 (2018)Citations: 13

Co-electrodeposition of iron and sulfur in aqueous and non-aqueous electrolytes
V. A. Majidzade, S. P. Mammadova, E. S. Petkucheva, E. P. Slavcheva, ...
Bulgarian Chemical Communications, 52, 73-78

Mr. Tengfei Cheng | Hydrogen Energy | Best Researcher Award

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Mr. Tengfei Cheng | Hydrogen Energy | Best Researcher Award

Hefei General Machinery Research Institute Co., Ltd, China.

Mr. Tengfei Cheng is a materials scientist and engineer specializing in pressure vessel and pipeline technology. He is currently an Engineer at Hefei General Machinery Research Institute (China), focusing on basic research in materials science and hydrogen storage technologies. With previous experience as an Assistant Engineer at Yunnan Innovation Institute, his expertise spans advanced materials research, solid-state hydrogen storage, and lithium-ion battery technologies. His work has earned recognition through multiple research grants and international journal publications.

Profile

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Education 🎓

Mr. Tengfei Cheng holds a Master's degree in Materials Science and Engineering from Shanghai University, where he studied from 2018 to 2021. Prior to that, he earned his Bachelor's degree in the same field from Shanghai University, completing his undergraduate studies between 2014 and 2018. His academic background has provided him with a strong foundation in materials science, equipping him with expertise in advanced materials research and engineering applications.

Professional Experience 👨‍🔬

Mr. Tengfei Cheng is currently an Engineer at Hefei General Machinery Research Institute, China (2021–Present). Previously, he served as an Assistant Engineer at the Yunnan Innovation Institute of Beijing University of Aeronautics and Astronautics in 2021.

Research Interests 🔬

Mr. Cheng’s research is centered on materials science and engineering, particularly in:

Hydrogen storage technologies

Advanced battery materials (Li-ion, Na-ion, and solid-state)

Pressure vessel and pipeline technology

High-entropy alloys and corrosion mechanisms

Molecular dynamics simulation for material properties

Awards & Recognitions 🏆

China National Machinery Industry Corporation Award (2024) – Research on High-Density Adaptive Solid-State Hydrogen Storage

Hefei General Machinery Research Institute Award (2023) – Research on Hydrogen Storage Properties of Titanium-Based High-Entropy Alloys

Selected Publications 📚

Mr. Cheng has published extensively in high-impact journals, with contributions to energy storage, corrosion resistance, and molecular dynamics simulation.

Enhanced Lithium Polysulfide Conversion via Multi-Transition-Metal-Phosphides for Li–S Batteries
Industrial & Engineering Chemistry Research, 2025
DOI: 10.1021/acs.iecr.5c00371

Thiol-Assisted Regulated Electronic Structure of Ultrafine Pd-Based Catalyst for Formic Acid Electrooxidation
Journal of Environmental Chemical Engineering, 2025
DOI: 10.1016/j.jece.2024.115034

Topological Insulator Heterojunction with Electric Dipole Domain to Boost Polysulfide Conversion in Li–S Batteries
Angewandte Chemie International Edition, 2025
DOI: 10.1002/anie.202423357

Functionalized Polyethylene Separators for Fast-Charging Li-Ion Batteries
ACS Applied Materials & Interfaces, 2025
DOI: 10.1021/acsami.4c15898

Study on the Microstructure and Mechanical Properties of Al–Cu–Mg Aluminum Alloy Using Molecular Dynamics Simulation
Transactions of the Indian Institute of Metals, 2024
DOI: 10.1007/s12666-024-03410-z

Prof. Xiaoli Zhang | Solar Cells | Best Researcher Award

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Prof. Xiaoli Zhang | Solar Cells | Best Researcher Award

Guangdong University of Technology, China.

Prof. Xiaoli Zhang is a leading researcher in materials physics and chemistry, specializing in perovskite solar cells, LEDs, and quantum dots. She is currently a Professor at the School of Physics and Optoelectronic Engineering, Guangdong University of Technology. With extensive experience in advanced optoelectronic materials, her work focuses on smart lighting and next-generation energy solutions.

Profile

Scopus

🎓 Education

Prof. Xiaoli Zhang earned her Ph.D. in Materials Physics and Chemistry from Tianjin University, China, in 2014, where she focused on advanced materials for energy and optoelectronic applications. Prior to that, she completed her Master of Engineering (M.E.) in Materials Physics and Chemistry at Tianjin University in 2010, gaining a strong foundation in material synthesis, characterization, and functional applications. Her academic background has played a crucial role in shaping her expertise in perovskite solar cells, LEDs, and quantum dot materials, contributing to significant advancements in the field of optoelectronic engineering.

🔬 Research Experience

Prof. Xiaoli Zhang has an extensive research background in materials science and optoelectronics. Since 2021, she has been a Professor at Guangdong University of Technology, China, where she leads research in perovskite solar cells, LEDs, and quantum dots, contributing to advancements in next-generation energy and lighting technologies.

From 2018 to 2020, she served as a Research Assistant Professor at Southern University of Science and Technology, China, focusing on the development of quasi-2D perovskites and their application in wearable perovskite LEDs, enhancing the efficiency and stability of flexible optoelectronic devices.

Prior to that, from 2015 to 2018, she was a Postdoctoral Scholar at Nanyang Technological University, Singapore, where she conducted in-depth research on impurity phase control in perovskite materials and optimized high-efficiency LED fabrication techniques, paving the way for improved device performance and commercial applications.

🔍 Research Interests

Perovskite Solar Cells & LEDs – High-efficiency, stable energy devices

Quantum Dots – Applications in lighting and display technology

Smart Lighting – Development of next-generation lighting solutions

Energy Storage & Conversion – Sustainable and high-performance materials

🏆 Awards & Honors

🥇 First Prize, Natural Science in Guangdong Province (2022)

🎖 Outstanding Postdoctoral Fellowship (2017)

🌍 Overseas High-level Talent Award (2017)

🏅 Postdoctoral Foundation First Prize (2017)

📚 Selected Publications

Salt-Based Catalyzer to Aid Heterogeneous Nucleation Enabling >23% Efficient Electron-Transport-Layer-Free Perovskite Solar Cells

Authors: Jidong Deng, Xiaofeng Huang, Yuliang Che, Li Yang, Jinbao Zhang

Publication Year: 2024

Summary: This study explores a salt-based catalyst to enhance heterogeneous nucleation, improving efficiency in perovskite solar cells without the need for an electron transport layer.

Acid Doping of PEDOT:PSS Strengthens Interfacial Compatibility toward Efficient and Stable Perovskite Solar Cells

Authors: Jidong Deng, Yinhu Gao, Yuliang Che, Xiaoli Zhang, Li Yang

Published in: ACS Applied Energy Materials (2024)

Summary: The research investigates acid doping of PEDOT:PSS to enhance interfacial compatibility, improving efficiency and stability in perovskite solar cells.

Dipole-Assisted Hole Injection for Efficient Blue Quantum Dot Light-Emitting Diodes

Authors: Youwei Zhang, Xiangtian Xiao, Ruiqiang Xu, Kai Wang, Xiaowei Sun

Published in: Applied Physics Letters (2024)

Summary: This work focuses on dipole-assisted hole injection mechanisms to enhance the performance of blue quantum dot LEDs.

SnO2-Based Interfacial Engineering Towards Improved Perovskite Solar Cells

Authors: Bing’e Li, Chuangping Liu, Xiaoli Zhang

Published in: Nanomaterials (2024)

Citations: 1

Summary: The study discusses SnO2-based interfacial engineering strategies for optimizing perovskite solar cells' efficiency.

Emission-Tunable Inorganic Metal Halide Perovskite Nanocrystals for Passive Q-Switched Fiber Laser

Authors: Chuangping Liu, Shi Lai, Linkun Zhong, Xiaoli Zhang

Published in: Journal of Materials Science: Materials in Electronics (2024)

Summary: The research focuses on emission-tunable metal halide perovskite nanocrystals for passive Q-switched fiber laser applications.

 

 

Mrs. Eduarda Fraga Olivo | Environmental Science | Best Researcher Award

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Mrs. Eduarda Fraga Olivo | Environmental Science | Best Researcher Award

University of the Extreme South of Santa Catarina, Brazil.

Eduarda Fraga Olivo is a researcher specializing in waste valorization and sustainable materials. She holds a Bachelor’s degree in Biological Sciences from the University of the Extreme South of Santa Catarina (UNESC) and is currently pursuing a dual Master’s degree in Materials Science and Engineering (UNESC) and Mechanical Engineering, Energy, and Materials (IPVC, Portugal). Her research focuses on circular economy strategies, particularly in the agroindustry, contributing to innovative solutions in technosoils, organomineral fertilizers, and sustainable ceramics.

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🎓 Education

Eduarda Fraga Olivo holds a Bachelor’s degree in Biological Sciences from the University of the Extreme South of Santa Catarina (2022) and is currently pursuing a dual Master’s degree in Materials Science and Engineering at UNESC and Mechanical Engineering, Energy, and Materials at the Polytechnic Institute of Viana do Castelo. Her interdisciplinary education integrates biological sciences, materials engineering, and sustainability, equipping her with the expertise to develop innovative solutions in waste valorization and circular economy strategies.

💼 Experience

Eduarda Fraga Olivo is a researcher at UNESC's PPGCEM program, where she actively contributes to studies on waste valorization and sustainable materials. As a research project leader, she oversees multiple ongoing projects focused on circular economy strategies and innovative material applications. Additionally, her role as a graduate research assistant involves developing sustainable solutions for agriculture, construction, and industrial waste management, reinforcing her expertise in environmental and materials science.

🔬 Research Interests

Waste Valorization ♻️ – Converting industrial byproducts into valuable materials

Sustainable Raw Materials 🌱 – Development of eco-friendly materials for agriculture

Technical Ceramics 🏺 – Using waste-based minerals for ceramic applications

Circular Economy 🔄 – Strategies for sustainable resource management

🏆 Awards & Honors

CAPES/PROSUC Scholarship – Brazilian Federal Government

Recognition in Sustainable Research – University of the Extreme South of Santa Catarina

📚 Selected Publications

📄 Systematic Selection of Waste from Run-of-Mine Coal Processing as Sustainable Raw Materials for Organo-Mineral Fertilizer Production (2025) – Sustainability

📄 Technosol Development Based on Residual Fraction of Coal Tailings Processing, Agro-Industrial Waste, and Paper Industry Waste (2024) – Sustainability

📄 Valorization of the Residual Fraction of Coal Tailings: A Mineral Circularity Strategy for the Clay Ceramic Industry in the Carboniferous Region of Santa Catarina, Southern Brazil (2024) – Materials

 

 

 

 

Prof. Dr. Chao Lyu | Energy | Best Researcher Award

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Prof. Dr. Chao Lyu | Energy | Best Researcher Award

Harbin Institute of Technology, China.

Prof. Chao Lyu is a distinguished scholar and researcher in electrical engineering, specializing in battery modeling, battery health management, and microgrid optimization. He is a Professor and Doctoral Supervisor at the Harbin Institute of Technology and a Senior Member of IEEE. With a strong academic background and over 50 research publications in international journals and conferences, Prof. Lyu has made significant contributions to the field of energy storage systems and lithium-ion battery technology. His expertise extends to fault diagnosis, performance evaluation, and optimization control methods for energy storage batteries, shaping advancements in sustainable energy solutions.

Profile

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🎓 Education

Prof. Chao Lyu holds a strong academic foundation in electrical engineering. He earned his B.Eng. in Electrical Engineering from Northeast Electric Power University, Jilin, China, in 2001, followed by an M.Sc. in Electrical Engineering from the same institution in 2004. His pursuit of advanced research led him to complete a Ph.D. in Electrical Engineering at Harbin Institute of Technology, China, in 2007. His academic journey has equipped him with extensive expertise in battery modeling, energy storage systems, and microgrid optimization, laying the groundwork for his impactful research and contributions to the field.

💼 Professional Experience

Prof. Chao Lyu is a Professor and Doctoral Supervisor at Harbin Institute of Technology, where he leads research in battery modeling, energy storage systems, and microgrid optimization. As a Senior Member of IEEE, he actively contributes to advancements in electrical engineering and battery technology. Beyond academia, he serves as a researcher and consultant, collaborating with State Grid Corporation of China and Guangdong Power Grid Co., Ltd on industry-driven projects focused on battery fault diagnosis, performance evaluation, and optimization control. His work bridges the gap between research and real-world applications, driving innovation in sustainable energy solutions.

🔬 Research Interests

Battery Modeling & Testing 🔋

Battery Health Management & Fault Diagnosis

Microgrid Optimization with Energy Storage 🏭

Lithium-ion Battery Performance & Safety 🔍

Artificial Intelligence for Battery Management 🤖

🏆 Awards & Recognitions

Senior Member, IEEE

Recognized Expert in Battery Technology & Microgrid Systems

📚 Selected Publications

Early Internal Short Circuit Diagnosis for Lithium-Ion Battery Packs Based on Dynamic Time Warping of Incremental CapacityBatteries, 10(11), 378

Concurrent Multi-Fault Diagnosis of Lithium-Ion Battery Packs Using Random Convolution Kernel Transformation and Gaussian Process ClassifierEnergy, 306, 132467 (3 citations)

Model-Free Detection and Quantitative Assessment of Micro Short Circuits in Lithium-Ion Battery Packs Based on Incremental Capacity and Unsupervised ClusteringInternational Journal of Electrochemical Science, 19(10), 100794 (1 citation)

Digital Twin Modeling Method for Lithium-Ion Batteries Based on Data-Mechanism Fusion DrivingGreen Energy and Intelligent Transportation, 3(5), 100162 (3 citations)

Optimization of Lithium-Ion Battery Charging Strategies From a Thermal Safety PerspectiveIEEE Transactions on Transportation Electrification, 10(2), pp. 2727–2739

 

 

 

Dr. Dawid Maciejewski | Hydroenergy | Best Researcher Award

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Dr. Dawid Maciejewski | Hydroenergy | Best Researcher Award

University of Agriculture in Krakow, Poland.

Dr. Dawid Maciejewski is an academic teacher and research assistant at the University of Agriculture in Krakow, Poland. With a PhD in Mechanical Engineering and extensive expertise in renewable energy systems, his research focuses on the innovative modeling of production processes, particularly in Small Hydropower Plants (SHP). Passionate about sustainability, Dr. Maciejewski employs cutting-edge artificial intelligence to advance energy efficiency and environmental protection.

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Education 🎓

Dr. Dawid Maciejewski earned his PhD in Mechanical Engineering (2018–2024) from the University of Agriculture in Krakow, Poland. His doctoral research focused on Modeling of the Production Process in the Small Hydropower Plant (SHP), offering innovative insights into optimizing renewable energy systems and advancing energy efficiency. This work underscores his dedication to sustainable energy solutions and practical applications of mechanical engineering in environmental conservation.

In addition to his PhD, Dr. Maciejewski holds a Postgraduate Diploma in Occupational Health and Safety (2018–2019) from AGH University of Krakow, where he specialized in workplace safety and risk management. He also completed a Master’s Degree in Environmental Quality and Safety (2017–2018) and a Bachelor’s Degree in Environmental Protection (2013–2017) at the University of Agriculture in Krakow, equipping him with a strong foundation in environmental monitoring, safety standards, and sustainable development practices.

Experience 💼

Since October 2024, Dr. Dawid Maciejewski has been serving as an academic teacher and research assistant in the Department of Bioprocesses Engineering, Power Engineering, and Automation at the University of Agriculture in Krakow, Poland. In this role, he combines teaching with cutting-edge research, focusing on renewable energy technologies, including Small Hydropower Plants (SHP), and the integration of artificial intelligence in energy forecasting. His dedication to sustainability and innovation drives his contributions to both academia and the advancement of practical solutions for energy efficiency and environmental conservation.

Research Interests 🔬

Renewable Energy Sources (RES) with a focus on run-of-river Small Hydropower Plants (SHP)

Utilizing sawmill industry waste for solid biofuel production

Environmental impact assessments of RES units, particularly on fauna and flora

Hydrogen energy production through water electrolysis

Applying Artificial Intelligence (AI) for regression analyses

Occupational risk assessment and disease prevention

Publications 📚

Maciejewski D., Mudryk K., Sporysz M. (2024). Forecasting Electricity Production in a Small Hydropower Plant (SHP) Using Artificial Intelligence (AI). Energies., Cited by: 15 articles. Link

Nęcka K., Knaga J., Maciejewski D. (2020). Characteristics of the Electrical Energy Quality in a Municipal Service Facility Cooperating with Photovoltaic Micro Installation. Przegląd Elektrotechniczny. Cited by: 8 articles. Link

 

 

Dr. Shixian Bai | Energy | Best Researcher Award

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Dr. Shixian Bai | Energy | Best Researcher Award

School of Electrical Engineering, Xi’an University of Technology, China.

Shixian Bai is a distinguished researcher at the School of Electrical Engineering, Xi’an University of Technology, specializing in power electronic control technology, renewable energy generation systems, and electrochemical energy storage solutions. His pioneering work focuses on SOC equalization control methods that improve the performance and efficiency of energy storage systems, particularly in DC–DC converter cascaded energy storage setups. Bai's innovative research has made a significant impact on enhancing both charging and discharging capacities, contributing to the advancement of energy storage technologies.

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🎓 Education

Shixian Bai holds a degree in Electrical Engineering. His academic background is centered on power electronic control technology and renewable energy generation systems, equipping him with the expertise necessary for his groundbreaking research in energy storage solutions.

💼 Experience

Bai is currently engaged in research at the School of Electrical Engineering, Xi’an University of Technology, where he leads projects on electric-thermal balance control among battery modules in DC–DC cascaded energy storage systems. His work has not only contributed to advancing theoretical understanding but has also provided practical solutions for enhancing energy storage performance. Bai’s involvement in industry-related projects has not been reported, but his academic contributions are notable.

🔬 Research Interests

Power Electronic Control Technology: Developing advanced control methods to enhance the performance and reliability of electronic systems, particularly in energy storage applications.

Renewable Energy Generation Systems: Exploring the integration of renewable energy sources with efficient storage and conversion technologies to support sustainable energy solutions.

Electrochemical Energy Storage Solutions: Focusing on innovative ways to improve the efficiency, lifespan, and capacity of energy storage systems, with an emphasis on electrochemical solutions such as batteries.

Control Mechanisms for Energy Storage Systems: Addressing the complexities of managing energy storage systems, particularly through the optimization of SOC (State of Charge) and SOH (State of Health) variations to maximize performance and sustainability.

Publication 📚

Bai, S. (2024). SOC Equalization Control Method Considering SOH in DC–DC Converter Cascaded Energy Storage Systems. Energies, 17(24), 6385. Link

 

 

 

Assoc. Prof. Dr. Marilena De Simone | Sustainability | Business-Science Integration Excellence Award

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Assoc. Prof. Dr. Marilena De Simone | Sustainability | Business-Science Integration Excellence Award

University of Calabria, Italy.

Marilena De Simone is an Associate Professor in Building Physics and Energy Systems at the Department of Environmental Engineering, University of Calabria, Italy. With a strong background in environmental and mechanical engineering, she has contributed extensively to research on energy efficiency, sustainable building design, and renewable energy systems. Dr. De Simone is a recognized leader in international collaborations, coordinating initiatives like the IEA EBC Annex projects. She has published over 100 works in prestigious journals and conferences, serves as a reviewer for high-impact journals, and actively participates in editorial boards and scientific committees.

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Education🎓

Marilena De Simone earned her Doctorate in Environmental Engineering from the University of Calabria in 2001, showcasing her strong foundation in sustainable practices and engineering principles. She further advanced her expertise by completing a Ph.D. in Mechanical Engineering at the same institution from 2002 to 2006. Her doctoral studies emphasized innovative approaches in engineering applications, laying the groundwork for her contributions to energy efficiency and building physics.

Professional Experience🏫

Marilena De Simone is an Associate Professor in Building Physics and Energy Systems at the University of Calabria, a role she has held since 2022, following 15 years as an Assistant Professor in the same field (2007–2022). Renowned for her engaging lectures, she teaches courses on Applied Physics and Renewable Energy Systems, equipping future engineers with sustainable energy solutions. Additionally, she has been a key coordinator for prestigious IEA EBC Annex projects, focusing on advancing building energy efficiency through innovative strategies and international collaborations. Her work bridges cutting-edge research with impactful academic mentorship.

Research Interests🔬

Energy Performance of Buildings🏢

Marilena De Simone investigates strategies to evaluate and improve the energy performance of buildings. Her research includes innovative assessment methods, energy audits, and requalification techniques to enhance building efficiency.

Renewable Energy Systems🌞

She focuses on the development and integration of renewable energy systems, emphasizing sustainable solutions for urban contexts. Her work explores solar, wind, and energy storage technologies to meet urban energy demands effectively.

Green Roofs and Materials🌱

Marilena explores energy-efficient solutions through the application of green roofs and advanced materials. Her studies address urban sustainability, reducing energy consumption and enhancing thermal comfort in buildings.

Occupant Behavior in Energy Use🏠

Her research delves into statistical modeling and case studies to understand how occupant behavior impacts energy consumption. These insights inform the design of occupant-centric building systems for better energy management.

Circular Economy in the Built Environment🔄

She champions innovative materials and techniques aligned with the principles of the circular economy. Her focus is on sustainable practices that minimize environmental impact while optimizing resource utilization in the building sector.

Awards and Honors🏆

Qualified for the role of Full Professor (2023)

Editorial Roles: Member of the editorial boards of MDPI's Buildings and other journals

Invited speaker at prominent workshops and conferences, including IAQVEC and EnerStock

Publications Top Notes📚

Circular Economy of Wind Turbines Waste in Constructions and Cities Book Chapter | 2024
Contributors: Marilena De Simone, Daniel-Viorel Ungureanu, Daniele Campagna. Link

Monitoring of Energy Rates of Domestic PV Systems to Evaluate the Influence of Occupants’ Behavior on Environmental and Economic Benefits Buildings | Journal Article | 2024-12-19, Contributors: Marilena De Simone, Antonio Bilotta. Link

Assessment of Probabilistic Models to Estimate the Occupancy State in Office Buildings Using Indoor Parameters and User-Related Variables Energy and Buildings | Journal Article | 2021, Contributors: G. Fajilla, M. Chen Austin, D. Mora, M. De Simone. Link

Intersecting Heuristic Adaptive Strategies, Building Design and Energy Saving Intentions When Facing Discomfort Environment: A Cross-Country Analysis Building and Environment | Journal Article | 2021, Contributors: C.-F. Chen, M. De Simone, S. Yilmaz, X. Xu, Z. Wang, T. Hong, Y. Pan. Link

Effect of Climate Change and Occupant Behaviour on the Environmental Impact of the Heating and Cooling Systems of a Real Apartment: A Parametric Study through Life Cycle Assessment Energies | Journal Article | 2021-12-11
Contributors: Gianmarco Fajilla, Emiliano Borri, Marilena De Simone, Luisa F. Cabeza, Luís Bragança. Link

 

 

Assist. Prof. Dr. Mohamed A. Karali | Engineering | Best Researcher Award

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Assist. Prof. Dr. Mohamed A. Karali | Engineering | Best Researcher Award

Future University, Egypt

Dr. Eng. Mohamed A. Karali is an Assistant Professor at the Department of Mechanical Engineering, Faculty of Engineering and Technology, Future University in Egypt. With a Ph.D. in Mechanical Engineering from Otto-von-Guericke University Magdeburg, Germany, he specializes in thermo-fluid sciences and renewable energy applications. He has extensive experience in experimental work, modeling, and simulation using advanced tools like ANSYS and MATLAB.

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Education 🎓

Dr. Mohamed A. Karali holds a Ph.D. in Mechanical Engineering from Otto-von-Guericke University Magdeburg, Germany (2015), where his thesis focused on the analysis of axial transport and heat transfer in a flighted rotary drum under optimal loading conditions. He earned his M.Sc. in Mechanical Engineering in 2007 from the Faculty of Engineering, Helwan University, Cairo, Egypt, with a thesis evaluating the performance of vapor compression refrigeration systems using environmentally safe alternatives to R22. Dr. Karali completed his B.Sc. in Mechanical Engineering at the same institution in 2001, with a graduation project analyzing condensation characteristics of R22 and its eco-friendly substitutes. His academic journey reflects a strong emphasis on thermodynamic systems and environmentally sustainable engineering solutions.

Experience 🛠️

Dr. Mohamed A. Karali has been serving as an Assistant Professor in the Department of Mechanical Engineering at Future University in Egypt since 2015. Prior to this role, he contributed as a Ph.D. researcher and tutor at Otto-von-Guericke University Magdeburg, Germany, from 2012 to 2015, where he conducted advanced research in mechanical engineering. From 2008 to 2012, he worked as an Assistant Lecturer at the Faculty of Engineering, Future University in Egypt. His earlier career includes experience as a researcher and tutor at the Faculty of Engineering, Helwan University, Egypt, from 2002 to 2007, showcasing his extensive academic and research expertise.

Research Interests 🔬

Thermo-Fluid Sciences

Expertise in heat transfer mechanisms within HVAC systems, focusing on enhancing energy efficiency and performance.

 Granular Materials Processing

Investigations into the dynamics and thermal behaviors of materials in rotary kilns, dryers, and coolers for industrial applications.

 Renewable Energy Systems

Researching sustainable energy solutions, including system design and application for improved environmental outcomes.

 Image Processing for Experimental Studies

Utilization of advanced image analysis techniques to support experimental research, enhancing accuracy and data interpretation.

Awards 🏆

First Prize: Joint Conference of 5th UK-China and 13th UK Particle Technology Forum, 2015.

Recipient of multiple research grants and industrial collaborations in energy and heat transfer projects.

Publications Top Notes 📚

Karali, M. A., et al. Comparison of using air, CO2, and helium for the cooling of square-shaped electronic parts CFD study with entropy generation analysis. Thermal Science, 2024. Link

Karali, M. A., et al. Numerical investigation of thermal performance enhancement of pin fin heat sink using wings with different angles. Ain Shams Engineering Journal, 2024. Link

Karali, M. A., et al. CFD study on the effect of tube diameter and count on flow distribution uniformity in a Z disposition. Thermal Science, 2023. Link

Karali, M. A., et al. Fluid flow characteristics for four lattice settings in brick tunnel kiln: CFD simulations. Buildings MPDI, 2023. Link

Karali, M. A., et al. Effect of surface roughness of a staggered tube bank in cross flow with air on heat transfer and pressure drop. Case Studies in Thermal Engineering, 2023. Link