Assist. Prof. Dr. Fuqiang Liu | Energy | Best Researcher Award

Zhonghua scholar at IET, CAS, China

Professional Profile:

• Scopus Profile

Education🎓

Professional Experience 💼

Dr. Fuqiang Liu has held significant academic and research positions at the Institute of Engineering Thermophysics, Chinese Academy of Sciences, where he has been a key contributor to combustion technology research. Since January 2016, he has served as an Associate Professor, specializing in advanced combustion technologies for industrial gas turbines and aero-engines. Prior to this, Dr. Liu was an Assistant Professor at the same institution from July 2012 to December 2015, where he began to develop his expertise in combustion science and technology. In both roles, he has led research projects focusing on high-performance combustion systems, low-emission combustion, and turbulent combustion, achieving notable success in practical applications, including the development of a low-emission centrally staged combustion system for small and medium-sized engine combustors. His work has led to over 50 patents and more than 50 published papers, making significant contributions to both academic research and industrial applications in combustion science.

Research  Interest🔍

Dr. Fuqiang Liu’s research interests focus on the development and application of advanced combustion technologies, with an emphasis on improving the efficiency and environmental performance of industrial gas turbines and aero-engines. His work explores high-performance combustion systems, turbulent combustion, and low-emission combustion, addressing the critical challenges of reducing emissions and enhancing energy efficiency in combustion processes. Dr. Liu is particularly interested in the application of advanced combustion organizations, including stratified partial premixed combustion and ignition mechanisms. His research also delves into the study of fuel spray characteristics, ignition and lean blow-off mechanisms, and the diagnostic methods for combustion sprays, which are vital for optimizing combustion processes in engines. Additionally, Dr. Liu investigates high-temperature combustion and its practical applications in improving the performance of small and medium-sized engine combustors. His interdisciplinary research has led to numerous innovations in combustion technology, contributing to both theoretical understanding and industrial advancements.

Award and Honor

Publications top noted📜

• Title: The Effects of Turbine Guide Vanes on the Ignition Limit and Light-Round Process of a Triple-Dome Combustor
  Authors: Li, Z., Zhang, X., Wang, K., Liu, C., Xu, G.
  Year: 2024
  Citations: 0
• Title: Swirling flow and spray atomization interactions in a swirl cup airblast fuel injector: Outer swirler effect
  Authors: Fang, C., Wang, K., Liu, Y., Xu, G., Zhu, J.
  Year: 2024
  Citations: 3
• Title: Experimental study on the effect of two-stage radial spacing on flow field and atomization in LDI staged combustor
  Authors: Cai, Y., Yang, X., Wang, K., Mu, Y., Xu, G.
  Year: 2023
  Citations: 0
• Title: Predicting the Sauter Mean Diameter of Swirl Cup Airblast Fuel Injector Based on Backpropagation (BP) Neural Network Model
  Authors: Fang, C., Liu, F., Yang, J., Zhu, J., Liu, Y.
  Year: 2023
  Citations: 1
• Title: Aerodynamic effect on atomization characteristics in a swirl cup airblast fuel injector
  Authors: Fang, C., Liu, Y., Wang, S., Xu, G., Zhu, J.
  Year: 2023
  Citations: 15
• Title: Experimental study of the ignition performances on a linear combustor under high-altitude conditions
  Authors: Wang, K., Liu, F., Wang, S., Yang, J., Xu, G.
  Year: 2023
  Citations: 0
• Title: Study on the Effect of Swirl Angle and Pressure Drop on Flow Field and Atomization in Staged Combustor
  Authors: Yang, X.-L., Liu, F.-Q., Mu, Y., Xu, G.
  Year: 2023
  Citations: 0
• Title: Experimental Study on Effects of Non-Swirling Air on Flow and Atomization in Lean-Direct-Injection Staged Combustor
  Authors: Mo, Y.-R., Cai, Y.-Q., Liu, F.-Q., Mu, Y., Xu, G.
  Year: 2023
  Citations: 0
• Title: Numerical Investigation on Mechanism of Swirling Flow of the Prefilming Air-Blast Fuel Injector
  Authors: Cao, C., Gao, Y., Wang, S., Mei, D., Xu, G.
  Year: 2023
  Citations: 1
• Title: A wide-range experimental and kinetic modeling study of the pyrolysis and oxidation of 1-butyne
  Authors: Lu, H., Dong, S., Liu, F., Sarathy, S.M., Curran, H.J.
  Year: 2023
  Citations: 6

Assoc. Prof. Dr. Benli Peng | Energy | Best Researcher Award

Naval Architecture and Ocean Engineering College, China

Professional Profile:

• Scopus Profile
• Google Scholar

Education🎓 

Professional Experience 💼

Dr. Peng’s professional experience spans over a decade in academia and research. He began his postdoctoral journey at the University of South Carolina’s School of Mechanical Engineering (2014-2018), where he honed his expertise in condensation heat transfer and energy-efficient systems. In 2018, he joined Dalian Maritime University as a Lecturer in the Department of Energy and Power Engineering, quickly rising to the position of Associate Professor by 2021. In his current role, he supervises master’s students and leads cutting-edge research projects on thermal energy systems and sustainable energy solutions.

Research  Interest🔍

Dr. Peng’s research interests focus on enhancing the efficiency of heat and mass transfer processes, particularly in phase change energy storage and flow boiling systems. His work on the development and preparation of functional surfaces has advanced the understanding of thermal behavior in energy systems. Additionally, he investigates mechanisms for efficient and clean energy utilization, aiming to optimize systems for sustainability. His studies bridge the gap between materials science and mechanical engineering, contributing to advancements in energy storage and transfer technologies.

Award and Honor

Publications top noted📜

• Experimental investigation on steam condensation heat transfer enhancement with vertically patterned hydrophobic–hydrophilic hybrid surfaces
  • Authors: B. Peng, X. Ma, Z. Lan, W. Xu, R. Wen
  • Year: 2015
  • Citation Count: 213
• Analysis of droplet jumping phenomenon with lattice Boltzmann simulation of droplet coalescence
  • Authors: B. Peng, S. Wang, Z. Lan, W. Xu, R. Wen, X. Ma
  • Year: 2013
  • Citation Count: 136
• Wetting transition of condensed droplets on nanostructured superhydrophobic surfaces: coordination of surface properties and condensing conditions
  • Authors: R. Wen, Z. Lan, B. Peng, W. Xu, R. Yang, X. Ma
  • Year: 2017
  • Citation Count: 135
• Condensation on hybrid-patterned copper tubes (I): Characterization of condensation heat transfer
  • Authors: M. Alwazzan, K. Egab, B. Peng, J. Khan, C. Li
  • Year: 2017
  • Citation Count: 133
• Effect of surface free energies on the heterogeneous nucleation of water droplet: A molecular dynamics simulation approach
  • Authors: W. Xu, Z. Lan, B. L. Peng, R. F. Wen, X. H. Ma
  • Year: 2015
  • Citation Count: 121
• Analysis of condensation heat transfer enhancement with dropwise-filmwise hybrid surface: Droplet sizes effect
  • Authors: B. Peng, X. Ma, Z. Lan, W. Xu, R. Wen
  • Year: 2014
  • Citation Count: 99
• Wetting mode evolution of steam dropwise condensation on superhydrophobic surface in the presence of noncondensable gas
  • Authors: X. Ma, S. Wang, Z. Lan, B. Peng, H. B. Ma, P. Cheng
  • Year: 2012
  • Citation Count: 91
• Enhanced flow boiling in microchannels using auxiliary channels and multiple micronozzles (I): Characterizations of flow boiling heat transfer
  • Authors: W. Li, F. Yang, T. Alam, X. Qu, B. Peng, J. Khan, C. Li
  • Year: 2018
  • Citation Count: 80
• Droplet dynamics and heat transfer for dropwise condensation at lower and ultra-lower pressure
  • Authors: R. Wen, Z. Lan, B. Peng, W. Xu, X. Ma
  • Year: 2015
  • Citation Count: 70
• Directional movement of droplets in grooves: suspended or immersed?
  • Authors: W. Xu, Z. Lan, B. Peng, R. Wen, Y. Chen, X. Ma
  • Year: 2016
  • Citation Count: 52
• Effect of nano structures on the nucleus wetting modes during water vapor condensation: from individual groove to nano-array surface
  • Authors: W. Xu, Z. Lan, B. L. Peng, R. F. Wen, X. H. Ma
  • Year: 2016
  • Citation Count: 52
• Enhancing filmwise and dropwise condensation using a hybrid wettability contrast mechanism: Circular patterns
  • Authors: K. Egab, M. Alwazzan, B. Peng, S. K. Oudah, Z. Guo, X. Dai, J. Khan, C. Li
  • Year: 2020
  • Citation Count: 51

Dr. Linlin Yao | Energy | Best Researcher Award

Assistant researcher at College of Geosciences and Engineering, North China University of Water Resources and Electric Power, China

Professional Profile:

• • Scopus Profile

Education🎓 

Professional Experience 💼

Dr. Linlin Yao has developed a strong professional profile through his focused research in reservoir reconstruction at North China University of Water Resources and Electric Power. As a doctoral candidate, he has engaged in various projects that address the challenges of sustainable water resource management, contributing to the enhancement of existing reservoir systems. His work involves conducting field studies, analyzing data, and implementing innovative solutions that align with modern environmental standards. Dr. Yao has also published over three research papers, demonstrating his ability to disseminate findings and engage with the academic community. In addition to his research, he actively participates in collaborative initiatives, working alongside fellow researchers and industry professionals to apply his knowledge in practical settings. This combination of academic rigor and practical experience positions Dr. Yao as a promising researcher dedicated to making impactful contributions to the field of water resources and engineering.

Research  Interest🔍

Dr. Linlin Yao’s primary research interest lies in reservoir reconstruction, a critical area in the field of water resource management. His work focuses on developing sustainable and efficient strategies to enhance existing reservoir systems, addressing the challenges posed by climate change, urbanization, and population growth. Dr. Yao is particularly interested in the interplay between hydrology and engineering, exploring innovative approaches to optimize reservoir performance while ensuring ecological integrity. His research involves analyzing data related to water quality, sedimentation, and hydraulic performance, with the aim of improving operational efficiency and environmental outcomes. Additionally, he seeks to incorporate advanced technologies, such as modeling and simulation tools, into his studies to predict reservoir behavior under varying conditions. By emphasizing the practical applications of his research, Dr. Yao aims to contribute to effective water resource management solutions that benefit both society and the environment, making his work relevant to contemporary global challenges.

Award and Honor

Publications top noted📜

• Title: Numerical simulation of CO2 geological sequestration and CO2-ECBM in coal beds of Longtan Formation, Xiangzhong Depression, Hunan Province, China
  Authors: Zou, M., Ding, Z., Cheng, Y., Sun, Y., Wang, K.
  Journal: Greenhouse Gases: Science and Technology
  Year: 2024
  Volume: 14
  Issue: 5
  Pages: 743–759
  Citations: 0
• Title: A method to classify coal pore system by using cumulative amplitude ratio and its dynamic variation
  Authors: Zou, M., Cai, N., Wang, K., Ding, Z., Yao, L.
  Journal: Greenhouse Gases: Science and Technology
  Year: 2023
  Volume: 13
  Issue: 5
  Pages: 721–731
  Citations: 0
• Title: Hydraulic fracture to enhance coalbed methane recovery by using coated ceramsite
  Authors: Zou, M., Yao, L., Zhang, M., Ding, Z., Zhang, X.
  Journal: Greenhouse Gases: Science and Technology
  Year: 2022
  Volume: 12
  Issue: 6
  Pages: 751–763
  Citations: 7

Assist. Prof. Dr. Amir Bahrami | Energy | Excellence in Research

 Photovoltaics at Islamic Azad University, Iran

Professional Profile:

• Scopus Profile
• ORCID Profile
• Google Scholar

Education🎓 

Professional Experience 💼

Assistant Professor Dr. Amir Bahrami has a notable professional career in academia, primarily in the Department of Physics at Ahvaz Branch, Islamic Azad University, Iran. In this role, he has been actively involved in teaching, mentoring students, and conducting research in solid-state physics, with a particular focus on photovoltaics and nanostructures. Dr. Bahrami has supervised numerous student projects, including master’s theses on topics related to solar cell simulations and the properties of materials. His research contributions are reflected in several published articles in reputable scientific journals, demonstrating his commitment to advancing knowledge in renewable energy technologies. Additionally, he has participated in both national and international conferences, presenting his research findings and engaging with the global scientific community. Dr. Bahrami is also a permanent member of the Iranian Physics Society and the Nano Club, indicating his active involvement in professional societies that promote scientific research and collaboration.

Research  Interest🔍

Assistant Professor Dr. Amir Bahrami’s research interests encompass a diverse range of topics within the field of solid-state physics, with a strong emphasis on renewable energy technologies. His primary focus is on photovoltaics, particularly the development and optimization of solar cells, including dye-sensitized solar cells and thin-film solar cells. Dr. Bahrami’s work involves the fabrication and characterization of various materials, including nanostructures and composite electrodes, to enhance solar cell efficiency. He is also adept in numerical analysis and simulation techniques, applying these methodologies to model and predict the performance of solar energy devices. Furthermore, his research extends to electrochemical impedance spectroscopy, X-ray diffraction, and electrodeposition, contributing to the understanding of material characteristics and their applications in energy conversion. Through his research, Dr. Bahrami aims to advance the development of sustainable energy solutions, addressing the global challenges of energy demand and environmental sustainability.

Award and Honor

Publications top noted📜

• Title: Pt-Ni/rGO counter electrode: electrocatalytic activity for dye-sensitized solar cell
  Authors: A. Bahrami, I. Kazeminezhad, Y. Abdi
  Year: 2019
  Citations: 40
• Title: The effect of silver doping on the critical current density of Bi‐Pb‐Sr‐Ca‐Cu‐O ceramic superconductor
  Authors: M. Zargar Shoushtari, A. Bahrami, M. Farbod
  Year: 2006
  Citations: 36
• Title: Structural and optoelectronic properties of electrodeposited CdSe thin films: effect of Cu-dopant
  Authors: H. Kafashan, Z. Orshesh, A. Bahrami, F. Zakerian
  Year: 2024
  Citations: 9
• Title: CIGS solar cells using ZrS2 as buffer layer: Numerical simulation
  Authors: H. Kafashan, A. Bahrami
  Year: 2024
  Citations: 3
• Title: Investigating the potential of WO3 and WS2 as Cd-free buffer layers in Sb2Se3-Based thin-film solar cells: A numerical study with SCAPS-1D software
  Authors: K. J. Abbas, A. Bahrami
  Year: 2024
  Citations: 2
• Title: The Study of Interaction of Melphalan with SWCNT-BNNT Through Force Fields Molecular Mechanics and Quantum Calculations in Different Solvents and Temperatures
  Authors: M. H. Jamshidi, N. Hasanzadeh, H. Yahyaei, A. Bahrami
  Year: 2023
  Citations: 1
• Title: Investigation of the Correlation between Geometrical Relationship and the Anomeric effect on Conformational Reactivities and Analyze the 1, 4-elimination
  Authors: A. Maknali, N. Hasanzadeh, A. Bahrami
  Year: 2023
  Citations: 1
• Title: Fabrication and Electrochemical Impedance Spectroscopy of Pt1-xNix Alloy Counter Electrodes for DSSC Applications
  Authors: A. Bahrami, I. Kazeminezhad, Y. Abdi
  Year: 2017
  Citations: 0
• Title: The effect of silver doping on the properties of Bi1/6Pb0/4Sr2Ca2Cu3Oδ superconductor
  Authors: M. F. A. Bahrami, M. Zargar Shoushtari
  Year: 2005
  Citations: 0

Mrs. Amina Lyria Deghal Cheridi | Energy | Best Researcher Award

Researcher at Nuclear Research Centre of Birine, Algeria

Mrs. Amina Lyria Deghal Cheridi is a Senior Researcher in Energetic Physics at the Nuclear Research Center of Birine, Djelfa, Algeria. Born on September 12, 1974, in Constantine, she holds a Magister and Doctorate in Energetic Physics from the University of Mentouri Constantine, with high honors. Since joining the Nuclear Research Center in 2002, she has progressed through various research positions, specializing in nuclear safety, photo-thermal energy, and radioprotection. She has extensive experience, having participated in numerous specialized training programs, including workshops on nuclear safety and reactor technology in Algeria and internationally. Her practical knowledge is reinforced by hands-on training at SONATRACH’s Skikda complex. With over two decades of research experience and a dedication to advancing nuclear science, Mrs. Deghal Cheridi is a leading figure in her field, contributing significantly to energy safety and innovation. Her work emphasizes applying theoretical physics to real-world nuclear safety challenges.

Professional Profile:

• Scopus Profile

Education🎓 

Professional Experience 💼

Mrs. Amina Lyria Deghal Cheridi has over two decades of professional experience in the field of Energetic Physics, specifically in nuclear safety and photo-thermal energy. She began her career in 2002 as a researcher at the Nuclear Research Center of Birine, Djelfa, where she has advanced through several positions, from Research Assistant to Senior Researcher. Her expertise spans nuclear safety analysis, radioprotection, and energy systems, contributing to the safety of nuclear reactors. Between 2003 and 2007, she served as an Attaché de Recherche, and by 2007, she became a Chargé de Recherche. In 2013, she was promoted to Maître de Recherche B, reflecting her deepening expertise. In 2019, she attained the rank of Senior Researcher. Throughout her career, Mrs. Deghal Cheridi has participated in specialized training in nuclear safety, reactor technology, and thermal hydraulics, strengthening her practical knowledge and making her a key contributor to Algeria’s nuclear research initiatives.

Research  Interest🔍

Mrs. Amina Lyria Deghal Cheridi’s research interests are deeply rooted in Energetic Physics, with a focus on photo-thermal energy, nuclear safety, and radioprotection. Her work centers on the analysis and safety assessment of nuclear reactors, contributing to advancements in nuclear energy technologies. She is particularly engaged in studying the application of photo-thermal techniques to improve energy efficiency and exploring nuclear safety protocols to enhance reactor reliability and mitigate risks. Mrs. Deghal Cheridi’s expertise extends to thermal hydraulics, reactor safety systems, and radiological protection, where she applies theoretical principles to solve practical challenges in the nuclear energy sector. Her contributions also include participation in several high-level training programs related to reactor physics and safety management systems, which have shaped her interest in ensuring the safe deployment of nuclear technologies. Her research aims to bridge the gap between theoretical physics and real-world nuclear safety, fostering innovation in energy sustainability and reactor safety systems.

Award and Honor

Publications top noted📜

• Bouam, A., Deghal Cheridi, A.L., Koudiah, N., Kentouche, A., & Khelfi, D.
  Design, construction and commissioning of a new vortex cooling tower prototype for nuclear application
  Nuclear Engineering and Design, 2024, 429, 113607.
  Citations: 0
• Dadda, A., Bouali, B., Bouam, A., Dahia, A., & Deghal Cheridi, A.L.
  Source term analysis and impact study during a hypothetical accident in Haiyang nuclear power plant
  Radiation Physics and Chemistry, 2024, 218, 111542.
  Citations: 1
• Deghal Cheridi, A.L., Dadda, A., Dahia, A., Kentouche, A., & Khelfi, D.
  Flow blockage accident analysis in a multi-purpose research reactor using Relap5 system code
  Progress in Nuclear Energy, 2024, 168, 105019.
  Citations: 0
• Dadda, A., Bouali, B., Bouam, A., Deghal Cheridi, A.L., & Graine, H.
  Impact study of radioactive release to the environment after a hypothetical accident of AP1000 Nuclear Reactor
  2nd International Conference on Energy Transition and Security, ICETS 2023, 2023.
  Citations: 0
• Dahia, A., Cheridi, A.L.D., & Boumaza, M.
  Transient analysis of the flow behavior under a small leakage accident in feed water pipeline
  Journal of Applied Fluid Mechanics, 2023, 16(12), pp. 2529–2539.
  Citations: 0
• Cheridi, A.L.D., Bouaam, A., Dadda, A., & Dahia, A.
  Influence of geometric parameters on the performance of a vortex-type cooling tower
  Lecture Notes in Networks and Systems, 2023, 591 LNNS, pp. 565–573.
  Citations: 0
• Deghal Cheridi, A.L., Bouam, A., Dadda, A., Koudiah, N., & Attari, K.
  Realization and experimentation of a novel vortex cooling tower
  Energy Conversion and Management, 2022, 270, 116197.
  Citations: 4
• Deghal Cheridi, A.L., Bouam, A., Dadda, A., Aguedal, I., & Kerris, A.
  Numerical investigation of a novel cooling vortex tower using Relap5 computer code
  Nuclear Engineering and Design, 2022, 391, 111730.
  Citations: 4
• Bouam, A., Deghal Cheridi, A.L., Attari, K., Dadda, A., & Kerris, A.
  Vortex Tower Prototype Realization
  2022 2nd International Conference on Advanced Electrical Engineering, ICAEE 2022, 2022.
  Citations: 0
• Deghal Cheridi, A.L., Loubar, A., Dadda, A., & Bouam, A.
  Modeling and simulation of a natural circulation water-tube steam boiler
  SN Applied Sciences, 2019, 1(11), 1405.
  Citations: 9

Assoc Prof Dr. Xiang Wang | Energy | Best Researcher Award

Assistant Professor at Nanjing Institute of Technology, China

Wang Xiang, is a distinguished researcher and master’s supervisor at the School of Energy and Power Engineering, Nanjing Institute of Engineering. He has over 20 years of expertise in mechanical vibration faults, fault diagnosis technology, and the development of vibration monitoring systems. Since 2007, he has been committed to teaching and research in the areas of steam turbines and digital electro-hydraulic control systems. His extensive practical and theoretical knowledge has benefited industries like power, chemical, and metallurgy through industry-university research collaborations. Wang has led over 50 research projects and published more than 20 academic papers, 9 of which are indexed in SCI and EI. His work has contributed to solving complex mechanical issues and ensuring the safe operation of key industrial equipment. He has been instrumental in developing advanced mechanical fault diagnosis systems and is well-regarded for his contributions to both academia and industry.

Professional Profile:

• Scopus Profile

Education🎓 

Wang Xiang holds a Ph.D. in Engineering from Hohai University, which he completed in 2015, following a Master’s degree in Engineering from Southeast University, obtained in 2007. His educational background has provided him with a solid foundation in the principles of mechanical and electrical engineering, with a focus on fault diagnosis technology and mechanical vibration monitoring. At both institutions, he gained significant exposure to cutting-edge research in engineering, contributing to his profound understanding of complex mechanical systems and the practical applications of theoretical research. His academic training has been instrumental in shaping his career, enabling him to lead significant projects in mechanical fault diagnosis and vibration analysis. His research skills have been enhanced by his studies in advanced mechanical systems, ultimately leading him to his current teaching and research role at Nanjing Institute of Engineering.

Professional Experience 💼

Wang Xiang has been serving as a faculty member at the School of Energy and Power Engineering, Nanjing Institute of Engineering since 2007. Over the past two decades, he has built a robust career in teaching, research, and industry collaboration, specializing in mechanical vibration faults and fault diagnosis systems for rotating machinery. His hands-on experience spans over 50 research projects and more than 20 power plants, including collaborations with renowned power generation companies such as Huaneng, Datang, and China Power Investment Corporation. His work involves fault diagnosis, system development, and on-site technical services for key industrial machinery, ensuring their optimal performance and safety. Wang has also contributed extensively to training technicians in thermal power plants, combining practical engineering solutions with academic research. He has led the implementation of advanced diagnostic tools like Emerson CSI systems and Bently DAIU-408 testers, enhancing the capabilities of mechanical health monitoring systems.

Research  Interest🔍

Wang Xiang’s research interests lie primarily in the areas of mechanical vibration faults, fault diagnosis technologies, and vibration monitoring systems for rotating machinery. His work focuses on the early detection and diagnosis of mechanical anomalies, with a particular emphasis on frequency spectrum analysis. He has made significant contributions to the development of advanced diagnostic tools, including mechanical health expert systems and multifunctional fault simulation test benches. His research aims to improve the reliability and safety of key industrial equipment by providing effective solutions for monitoring and diagnosing mechanical faults. Additionally, Wang’s research involves industry-university collaborations, where his practical engineering experience is combined with theoretical advancements to solve real-world challenges in sectors such as power generation, chemical processing, and metallurgy. His work continues to push the boundaries of mechanical fault diagnosis, focusing on enhancing system efficiency and ensuring the operational integrity of critical industrial systems.

Award and Honor

Publications top noted📜

• Wang, X., Du, Y.
  (2024). Fault Diagnosis of Wind Turbine Gearbox Based on Modified Hierarchical Fluctuation Dispersion Entropy of Tan-Sigmoid Mapping. Entropy, 26(6), 507.
  Citations: 1
• Wang, X., Du, Y.
  (2024). Fault Diagnosis Method for Wind Turbine Gearbox Based on Ensemble-Refined Composite Multiscale Fluctuation-Based Reverse Dispersion Entropy. Entropy, 26(8), 705.
  Citations: 0
• Wang, X., Xu, W.
  (2024). A Decoupled Approach to Enhance the Elrod Algorithm. Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology, 238(1), 86–95.
  Citations: 1
• Xu, W., Wang, X., Huang, T., Yang, J.
  (2023). Efficient Implementation of Numerical Methods for Solving Bearing Cavitation Problems Using Symmetric System Solvers. Tribology International, 186, 108624.
  Citations: 3
• Wang, X., Jiang, H.
  (2023). Gearbox Fault Diagnosis Based on Refined Time-Shift Multiscale Reverse Dispersion Entropy and Optimised Support Vector Machine. Machines, 11(6), 646.
  Citations: 2
• Wang, X., Wang, J., Xu, W.
  (2022). Fault Diagnosis Method of Wind Turbine Gearbox Based on S-SLLE | 基于S-SLLE的风电机组齿轮箱故障诊断方法研究. Taiyangneng Xuebao/Acta Energiae Solaris Sinica, 43(3), 343–349.
  Citations: 3
• Song, G., Zhao, S., Wang, X., Wang, H., Xiao, J.
  (2022). An Efficient Biomass and Renewable Power-to-Gas Process Integrating Electrical Heating Gasification. Case Studies in Thermal Engineering, 30, 101735.
  Citations: 7
• Wang, J., Wang, J., Bi, X., Wang, X.
  (2016). Performance Simulation Comparison for Parabolic Trough Solar Collectors in China. International Journal of Photoenergy, 2016, 9260943.
  Citations: 24
• Wang, X., Zheng, Y., Zhao, Z., Wang, J.
  (2015). Bearing Fault Diagnosis Based on Statistical Locally Linear Embedding. Sensors (Switzerland), 15(7), 16225–16247.
  Citations: 132

Assoc Prof Dr. Betül Özer | Energy | Best Researcher Award

Academician at Kırklareli University Technology Faculty, Turkey

Assoc. Prof. Dr. Betül Özer is a dedicated environmental engineer with a strong academic and research background. She holds a Ph.D. in Environmental Engineering from Istanbul Technical University, where she explored CO2 emission reduction in the Turkish electricity sector. With over two decades of experience in sustainable energy systems and environmental management, Dr. Özer has made significant contributions to both academia and applied research. She has supervised numerous master’s theses on renewable energy, sustainability, and biogas potential, contributing to the development of future experts. Her work is marked by an emphasis on practical applications, such as carbon footprint analysis, energy efficiency, and biogas production. Dr. Özer’s contributions have been recognized through high-impact projects and international collaborations, positioning her as a leader in environmental sustainability and clean energy solutions. 🌍💡

Professional Profile:

• ORCID Profile
• Scopus Profile

Education🎓 

Dr. Betül Özer’s academic journey is rooted in her passion for environmental engineering. She earned her Ph.D. in Environmental Engineering from Istanbul Technical University (İTÜ) in 2012, with a thesis focused on CO2 emission reduction potential in the Turkish electricity sector, supervised by Prof. Dr. Hüseyin Erdem Görgün and Prof. Dr. Salahattin İncecik. Prior to that, she completed her M.Sc. in Environmental Engineering from İTÜ in 2000, where her research addressed environmental management systems in the electrical components industry under the guidance of Prof. Dr. İlhan Talınlı. She began her academic career with a B.Sc. in Environmental Engineering from İTÜ, graduating in 1997. Throughout her education, Dr. Özer has demonstrated a strong commitment to tackling pressing environmental issues, laying the foundation for her future contributions in renewable energy and sustainability. 🎓📚

Professional Experience 💼

Dr. Betül Özer has an extensive career in both academia and applied research. She is currently an Associate Professor in the Energy Systems Engineering Department at Kırklareli University, where she supervises multiple research projects and master’s theses. Her professional experience includes leading significant projects such as the calculation of the carbon footprint for Kırklareli University’s Kayalı Campus and consultancy roles in national and international bioenergy and biogas initiatives. She has also contributed to the Republic of Turkey’s Ministry of Environment and Urbanization as an expert on emissions control and environmental management systems. Additionally, Dr. Özer served as a Postdoctoral Researcher for TÜBİTAK’s national air pollution emission management project and as a consultant on energy efficiency projects in various sectors. Her role as a leader in environmental research and her commitment to sustainability are reflected in her impactful work. 🌱🛠️

Research  Interest🔍

Dr. Betül Özer’s research interests focus on sustainable energy systems, renewable energy, and environmental management. Her primary area of expertise lies in reducing CO2 emissions, particularly in the Turkish electricity sector, where she has conducted extensive scenario analysis using energy-environment models. Dr. Özer is also deeply involved in exploring the potential of biogas energy from agricultural waste and animal by-products, contributing to the development of renewable energy resources in Turkey. Other key research interests include energy efficiency in industries such as textiles and cement, where her work has resulted in practical solutions to minimize environmental impact. She is passionate about carbon footprint reduction, particularly in the context of university campuses and organized industrial zones. Dr. Özer continues to explore innovative methods to integrate sustainability into energy systems, making her research crucial for addressing global environmental challenges. 🔋🌱

Award and Honor

Publications top noted📜

• Özer, B., Yay, A.S.E. (2021). “Comparative life cycle analysis of municipal waste management systems: Kırklareli/Turkey case study.” Environmental Science and Pollution Research, 28(45), pp. 63867–63877.
  Citations: 10
• Özer, B., Güven, B. (2021). “Energy efficiency analyses in a Turkish fabric dyeing factory.” Energy Sources, Part A: Recovery, Utilization and Environmental Effects, 43(7), pp. 852–874.
  Citations: 5
• Ozer, B., Guven, B. (2019). “Energy Efficiency Implementation in a Fabric Finishing Factory in Turkey.” 2019 4th International Conference on Smart and Sustainable Technologies, SpliTech 2019, 8783010.
  Citations: 0
• Özer, B., Bayar, S. (2018). “Biomass as a renewable energy option in electricity generation: ‘Trakya region’ case study.” Green Energy and Technology, pp. 485–492.
  Citations: 1
• Özer, B. (2017). “Biogas energy opportunity of Ardahan city of Turkey.” Energy, 139, pp. 1144–1152.
  Citations: 32
• Özer, B., Incecik, S., Görgün, E. (2017). “The evaluation of CO2 emissions mitigation scenarios for Turkish electricity sector.” International Journal of Global Warming, 11(2), pp. 157–181.
  Citations: 1
• Özer, B. (2014). “Evaluation of Turkish electricity demand projections.” Progress in Exergy, Energy, and the Environment, pp. 559–568.
  Citations: 0
• Özer, B. (2013). “Biogas potential of animal wastes for electricity generation in Ardahan city of Turkey.” Causes, Impacts and Solutions to Global Warming, pp. 697–707.
  Citations: 2
• Özer, B., Görgün, E., Incecik, S. (2013). “The scenario analysis on CO2 emission mitigation potential in the Turkish electricity sector: 2006-2030.” Energy, 49(1), pp. 395–403.
  Citations: 71

Prof. Hong Fan | Energy | Best Researcher Award

Assistant Professor at Shanghai University of Electric Power, China

Dr. Hong Fan is an Associate Professor at the School of Electric Power Engineering, Shanghai University of Electric Power. With 15 years of experience, she specializes in optimizing power systems, focusing on power grid planning, smart grids, and simulation. Her impressive portfolio includes over 60 publications and numerous completed and ongoing research projects. Dr. Fan’s work has earned her significant recognition, including multiple prestigious awards. She is dedicated to advancing energy solutions and contributing to the field of electrical engineering.

Professional Profile:

• ORCID Profile

Education🎓 

Dr. Fan holds a Ph.D. in Electrical Engineering from Shanghai Jiaotong University (2009), a Master’s degree from Guangxi University (2004), and a Bachelor’s degree from Hubei University for Nationalities (1999). Her doctoral research focused on optimizing power system efficiency, laying a strong foundation for her subsequent career in electrical engineering. Her academic journey reflects a robust and comprehensive education in her field.

Professional Experience 💼

Since 2009, Dr. Fan has been an Associate Professor and master’s tutor at Shanghai University of Electric Power. She has led numerous research projects funded by the National Natural Science Foundation of China and various industry sponsors. Her previous roles include substantial contributions to research and teaching in power systems, optimizing power flows, and smart grid technologies. Her professional experience underscores her leadership and expertise in electrical engineering.

Research  Interest🔍

Dr. Fan’s research focuses on optimizing power systems, including power grid planning, optimal power flow, reactive power optimization, and smart grid technologies. Her work addresses critical challenges in energy efficiency and grid stability, aiming to enhance power system performance and reliability. Her ongoing projects explore cutting-edge solutions in energy management and smart grid integration, contributing significantly to advancements in electrical engineering.

Award and Honor

Publications top noted📜

Journal: Electric Power Systems Research
ISSN: 0378-7796
Type: Review
Role: Reviewer
Publisher: Elsevier Editorial
Review Date: 2023

Dr. Elham Khorashadizade | Energy | Best Faculty Award

Assistant Professor at Pasargad Institute for Advanced Innovative solutions (PIAIS), Iran

Elham Khorashadizade is a prominent Iranian physicist specializing in condensed matter physics with a focus on renewable energy technologies. Currently, she is a researcher at the Islamic Public of Iran, where she leads innovative projects on photoelectrochemical systems and catalysis. Elham’s extensive experience includes teaching various advanced physics courses and contributing to significant research initiatives, including solar cells and supercapacitors. Her international background, with research stints in Germany, and her role in advancing sustainable technologies underscore her dedication to impactful science.

Professional Profile:

• Scopus Profile

Education🎓 

Elham Khorashadizade earned her Ph.D. in Condensed Matter Physics from Sharif University of Technology, Iran, with a GPA of 19.50. Her thesis focused on enhancing the photoelectrochemical performance of titanium dioxide nanotubes. She completed a M.Sc. in Solid State Physics at the University of Birjand, where she investigated strontium hexaferrite nanoparticles. Elham also holds a B.Sc. in Physics from Ferdowsi University of Mashhad. She furthered her research skills during a sabbatical at Friedrich-Alexander University, Germany, under the supervision of Prof. Patrik Schmuki.

Professional Experience 💼

Elham Khorashadizade’s professional experience spans several roles in academia and research. As a researcher, she leads projects on photoelectrochemical systems and renewable energy technologies. She has taught various physics courses, including solar cells and analytical electrochemistry. Elham has served as a research assistant and teacher assistant at Sharif University of Technology, where she supervised projects related to titanium dioxide nanotubes and nanostructured materials. Her previous roles also include teaching physics courses at Payam Noor University and University of Birjand, Iran.

Research  Interest🔍

Elham Khorashadizade’s research interests are centered around advanced photoelectrochemical systems, solar cells, supercapacitors, and hydrogen production. She explores the effects of defect engineering in titanium dioxide nanotubes and develops new electrocatalysts for energy applications. Her work also includes fabricating nanostructured materials and enhancing supercapacitor performance. Elham is committed to advancing sustainable energy technologies through her innovative research, contributing significantly to the field of renewable energy.

Award and Honor

Publications top noted📜

1. Comparing Plasma Reduction and Thermal Hydrogenation in Oxygen Deficient TiO2-x Nanotubes for Photoelectrochemical H2 Production
   Khorashadizade, E., Rahimi, K., Mohajernia, S., et al.
   International Journal of Hydrogen Energy, 2024, 74, pp. 434–446
   📄 Citations: 0
2. Enhanced Photoelectrochemical Water Splitting via Hydrogenated TiO2 Nanotubes Modified with Cu/CuO Species
   Pour-Ali, S., Tavangar, R., Namdar-Asl, H., Esfandiari, N., Khorashadizade, E.
   Journal of Photochemistry and Photobiology A: Chemistry, 2024, 452, 115586
   📄 Citations: 1
3. Intrinsically Ru-Doped Suboxide TiO2 Nanotubes for Enhanced Photoelectrocatalytic H2 Generation
   Khorashadizade, E., Mohajernia, S., Hejazi, S., et al.
   Journal of Physical Chemistry C, 2021, 125(11), pp. 6116–6127
   📄 Citations: 25
4. Alkali Metal Cation Incorporation in Conductive TiO2 Nanoflakes with Improved Photoelectrochemical H2 Generation
   Khorashadizade, E., Mohajernia, S., Hejazi, S., et al.
   ChemElectroChem, 2020, 7(7), pp. 1699–1706
   📄 Citations: 12
5. Recent Progress on Doped ZnO Nanostructures for Visible-Light Photocatalysis
   Samadi, M., Zirak, M., Naseri, A., Khorashadizade, E., Moshfegh, A.Z.
   Thin Solid Films, 2016, 605, pp. 2–19
   📄 Citations: 601
6. Doping Effect on Crystal Structure and Magnetic Properties of Highly Al-Substituted Strontium Hexaferrite Nanoparticles
   Khorashadizade, E., Arabi, H., Yousefi, A.
   Applied Mechanics and Materials, 2012, 229-231, pp. 210–214
   📄 Citations: 2