Assoc. Prof. Dr. Saidjon Tavarov | Demand Side Management & Energy Efficiency | Editorial Board Member

Published on by Electrical Engineering

Assoc. Prof. Dr. Saidjon Tavarov | Demand Side Management & Energy Efficiency | Editorial Board Member

Associate Professor | South Ural State University (national research university) | Russia

Dr. Saidjon Shiralievich Tavarov, a researcher and faculty member at South Ural State University specializing in power and energy systems, is an expert in electrical load forecasting, distribution network optimization, and energy efficiency. He holds advanced degrees in power engineering with a focus on electrical systems analysis and has previously served at Tajik Technical University, where he contributed to academic instruction, research leadership, and applied energy projects. His professional experience spans modeling urban electrical networks, developing algorithms for consumption management, and improving operational modes of distribution grids, along with leading studies on household energy behavior, uncertainty-based forecasting, and smart-meter-driven control methods. Dr. Tavarov has authored numerous publications in international journals and conferences, covering semiconductor converter modeling, pulse converter efficiency, fuzzy-logic-based forecasting, reliability assessment, and urban grid performance enhancement. His research has supported practical improvements in energy planning, grid stability, and consumption optimization in regions with complex climatic and infrastructural conditions. He has been recognized for his scholarly contributions through active editorial and peer-review roles for leading journals, including Energies, Sustainability, Algorithms, Electric Power Components and Systems, and the World Electric Vehicle Journal. His professional standing is further supported by memberships in academic communities and ongoing contributions to international research collaborations, reflecting his commitment to advancing modern electrical engineering and sustainable energy development.

Profile: Scopus

Featured Publications

Saidjon Shiralievich Tavarov*, Forecasting average daily and peak electrical load based on monthly consumption data. Electricity, Accepted.

Saidjon Shiralievich Tavarov*, Model of semiconductor converters for simulating asymmetric loads in autonomous power systems. Int. J. Electr. Comput. Eng., Accepted.

Saidjon Shiralievich Tavarov*, Improving energy indicators of pulse converters. Indones. J. Electr. Eng. Comput. Sci., Accepted.

Assoc. Prof. Dr. Ehsan Akbari | Power Electronics Converters | Best Researcher Award

Published on by Electrical Engineering

Assoc. Prof. Dr. Ehsan Akbari | Power Electronics Converters | Best Researcher Award

Associate Professor | Mazandaran University of Science and Technology | Iran

Dr. Ehsan Akbari is an Associate Professor in the Department of Electrical Engineering at the Mazandaran University of Science and Technology, renowned for his expertise in electrical power engineering, power electronics, and modern energy systems. He holds comprehensive academic qualifications spanning bachelor’s, master’s, and doctoral degrees in Electrical Power Engineering with focused specialization in power quality enhancement, converter control, smart grids, and renewable energy integration. His professional career includes extensive teaching, research leadership, and contributions to major projects involving flexible AC transmission systems, multilevel converters, grid-connected converter control, micro-grid stability, reactive power management, and harmonics mitigation using advanced hybrid filtering techniques. A highly productive scholar, he has authored numerous books along with hundreds of peer-reviewed publications and has secured multiple patents that reflect his commitment to advancing power system reliability and intelligent energy technologies. His academic service includes organizing and contributing to program committees of various scientific conferences, mentoring emerging researchers, and participating in collaborative initiatives that translate theoretical advancements into practical engineering solutions. Dr. Akbari has earned several scientific and technological achievement awards, complemented by professional memberships, editorial engagements, and recognized contributions to the global power engineering community. Citations 1,206 by 962 documents, 58 documents, h-index 20.

Profile: Scopus

Featured Publications

Akbari, E.*, Stationary-frame power regulation for controlling grid-connected three-phase modular multilevel converter with low harmonic under unbalanced voltage. Scientific Reports, 2025.

Akbari, E.*, Flexibility regulation-based economic energy scheduling in multi-microgrids with renewable/non-renewable resource and stationary storage systems considering sustainable computing by hybrid metaheuristic algorithm. Sustainable Computing: Informatics and Systems, 2025.

Akbari, E.*, Capabilities of battery and compressed air storage in the economic energy scheduling and flexibility regulation of multi-microgrids including non-renewable/renewable units. Scientific Reports, 2025.

Akbari, E.*, An optimized ANFIS framework for online voltage stability margin estimation in power systems using the novel Solifugae-inspired optimization algorithm and partial least squares-based dimensionality reduction. Measurement, 2025.

 

Dr. Fatemeh Avazpour | Renewable Energy Systems | Best Academic Researcher Award

Published on by Electrical Engineering

Dr. Fatemeh Avazpour | Renewable Energy Systems | Best Academic Researcher Award

PhD | Yazd University | Iran

Dr. Fatemeh Avazpour is a highly accomplished researcher and educator in Water and Hydraulic Structure Engineering, currently affiliated with Yazd University, Iran. She holds a Ph.D. in Water and Hydraulic Structure Engineering from Yazd University, an M.Sc. in Civil Engineering with a focus on Water Engineering from Yasuj University, and a B.Sc. in Civil Engineering from the same institution. Her academic and research pursuits center on hydrology, hydraulic structures, numerical and hydrological modeling, and the integration of artificial intelligence techniques—such as deep learning and optimization algorithms—for streamflow and sediment prediction under climate change conditions. Dr. Avazpour has served as a faculty member teaching hydraulic and hydrologic engineering courses and as a visiting researcher at the Water, Energy and Environment Research Unit of Oulu University, Finland. She has authored and co-authored numerous scientific papers in reputed international journals and conferences, as well as translated technical books on computational fluid dynamics and numerical modeling. Her professional roles include engineering consultancy, project supervision, and refereeing for national and international journals. She is an active member of the Watershed Management Society of Iran and the Iranian Water Resources Association. Her recognitions include selection as a visiting researcher in Finland, top researcher and best faculty awards at Pishtazan University, and first rank in her Master’s program. Dr. Avazpour’s commitment to applying artificial intelligence for sustainable water resource management continues to enhance the interdisciplinary advancement of hydraulic and environmental engineering. She has 20 citations by 20 documents, 4 publications, and an h-index of 2.

Profile: Scopus

Featured Publications

Fatemeh Avazpour*, Flow discharge and suspended sediment load prediction in multiple sites of a basin: a comparative study of classical AI and deep learning approaches. Acta Geophysica, Accepted.

Fatemeh Avazpour*, Impact of climate change on river flow using a hybrid model of LARS_WG and LSTM: A case study in the Kashkan Basin. Results in Engineering, Accepted.

Fatemeh Avazpour, Numerical modeling of optimal location of drainage and cutoff wall under small concrete dams. Applied Water Science, Accepted.

Dr. Qin Ni | High-Efficiency Thermal Management Technology | Rising Star in Research Award

Published on by Electrical Engineering

Dr. Qin Ni | High-Efficiency Thermal Management Technology | Rising Star in Research Award

Post Doctor|Nanjing Tech University | China

Dr. Qin Ni is a Postdoctoral Researcher in Heat and Mass Transfer Enhancement Technology and Equipment at Nanjing Tech University, specializing in Power Engineering and Engineering Thermophysics. She earned her Ph.D. from Nanjing Tech University and completed combined Master’s and Bachelor’s degrees in Structural and Electromagnetic Compatibility Design at Nanjing University of Aeronautics and Astronautics. Prior to academia, she served as Assistant Director of Structural and Thermal Design at Nanjing Panda Handa Technology Co., Ltd., where she gained extensive experience in engineering innovation and leadership. Dr. Ni’s research focuses on enhanced heat transfer mechanisms, gas–liquid separation surface design, and spray cooling technologies for high-power electronic systems. Her groundbreaking work on gas–liquid separation structures and self-driven droplet technologies has advanced the understanding of energy–mass transport and improved cooling efficiency under high heat flux conditions. She has authored multiple SCI-indexed papers in leading journals such as Applied Thermal Engineering and International Journal of Heat and Mass Transfer. Dr. Ni has presided over several national and provincial projects and actively contributes to collaborative research on high-entropy alloy coatings and solar-powered CO₂ conversion systems. Her outstanding achievements have earned her the Outstanding Youth Talent Award, Green Manufacturing Scientific Progress Award (First Prize), and Outstanding Doctoral Dissertation Award. Recognized for her academic excellence and research leadership, Dr. Qin Ni has 71 citations, 11 publications, and an h-index of 5.

Profile: Scopus

Featured Publications

Ni, Qin*, New insights into intermittent spray cooling for high-power electronics applications. Appl. Therm. Eng., 2025, 261, 125148.

Ni, Qin*, Experimental and computational investigation on synergistic enhancement spray cooling using micropillars and capillary-driven wicking hybrid structures. Int. J. Heat Mass Transf., 2023, 217, 124643.

Ni, Qin*, Experimental study on heat transfer performance using a hybrid cooling method combined of a flat-plate heat pipe and spray cooling. Therm. Sci. Eng. Prog., 2023, 46, 102200.

Ni, Qin*, Fabrication of micro-channel for 3D heterogeneous-wettability surfaces by plasma-electrochemical complex energy-field machining. Appl. Surf. Sci., Under Review.

Ni, Qin*, Study on spray cooling heat transfer enhancement mechanisms based on capillary imbibition and evaporation models. Int. Commun. Heat Mass Transf., Under Review.

Dr. Jaynos Cortes | Renewable Energy Systems | Best Researcher Award

Published on by Electrical Engineering

Dr. Jaynos Cortes | Renewable Energy Systems | Best Researcher Award

Faculty Researcher | North Eastern Mindanao State University-Lianga Campus | Philippines

Dr. Jaynos is a Faculty Member at the Department of Fisheries Sciences, College of Fisheries and Aquatic Sciences, North Eastern Mindanao State University, specializing in aquaculture, aquatic health management, and sustainable fisheries. He holds a Ph.D. in Aquaculture and Aquatic Resources Management from the Asian Institute of Technology, a Master’s in Fisheries Management major in Aquaculture Technology from Davao del Norte State College, and a Bachelor of Science in Fisheries from North Eastern Mindanao State University. With extensive professional experience as faculty, researcher, and project collaborator in international initiatives on aquaculture sustainability, climate resilience, and aquatic biodiversity, he has contributed significantly through leadership roles, curriculum development, and community-based fisheries programs. His research focuses on crustacean nutritional physiology, tilapia culture, aquaculture health, and the impacts of climate change, with several publications in peer-reviewed journals and active participation in international conferences. He has served as a reviewer and editorial board member for multiple Scopus- and WoS-indexed journals, and as a judge in global academic conferences. Dr. Cortes has been recognized with the Yang Yi Young Scientist Fellowship Award, as well as scholarships and fellowships for his doctoral studies. He is an active member of professional organizations including the European Aquaculture Society, Malaysian Fisheries Society, Global Seafood Alliance, and the National Research Council of the Philippines. His exemplary blend of academic excellence, research innovation, and professional service highlights his commitment to advancing sustainable aquaculture and fisheries science globally.

Profile: Google Scholar 

Featured Publications

Jaynos R. Cortes*, Natural rubber trade and production toward sustainable development goals: A global panel regression analysis. ABAC J., 2024, 44(4), Article 61.

Jaynos R. Cortes*, Dietary supplementation with seaweed extracts: Impact on growth, hematology, and physiology of Nile Tilapia (Oreochromis niloticus). Res. Adv. Chall. Agric. Sci., 2024, 6, 168–185.

Jaynos R. Cortes, Servant and ethical leadership as antecedent to employees’ job satisfaction at the Bureau of Fisheries and Aquatic Resources in Caraga Region, Philippines. J. Public Adm. Public Aff. Manag., 2023, 21(2), 169–169.

Jaynos R. Cortes, Climate-related risk management practices in pond-based tilapia culture: A case study of the small-scale fish farmers of Agusan del Sur, Philippines. Bio Web Conf., 2023, 74, 01014.

Jaynos R. Cortes, Homoplastic hypophysation of African catfish (Clarias gariepinus, Burchell 1822) using catfish pituitary gland with coconut water as extender agent. Asian J. Fish. Aquat. Res., 2023, 25(3), 123–129.

Kewei Lin | Renewable Energy Systems | Best Researcher Award

Published on by Electrical Engineering

Kewei Lin | Renewable Energy Systems | Best Researcher Award

Assistant Professor | National Kaohsiung University of Science and Technology | Taiwan

Dr. Ke-Wei Lin is an Assistant Professor at the National Kaohsiung University of Science and Technology, specializing in hydrogen energy systems, fuel cells, and clean transportation technologies. He holds a Ph.D. in System and Naval Mechatronic Engineering, as well as M.S. and B.S. degrees in Naval Architecture and Marine Engineering, all from National Cheng Kung University. Dr. Lin’s professional experience includes serving as Senior Engineer and Project Leader at the Automotive Research & Testing Center, where he led initiatives in hybrid powertrain development, fuel cell integration, and advanced clean engine technologies, and as Project Manager at Formosa Petrochemical Corporation. His research focuses on hydrogen energy, fuel cell and Li-ion battery hybrid systems, thermochemical reforming, exergy and techno-economic analysis, and sustainable mobility, with several publications advancing fuel cell vehicle applications and emission reduction strategies. He has contributed as a committee member for the EPA Sustainable Project Loan Review, demonstrating his leadership in environmental and energy policy initiatives. Dr. Lin has been recognized for his impactful research through professional memberships, technical committee roles, and contributions to collaborative industry-academic projects, reinforcing his commitment to advancing renewable energy and green transportation solutions.

Profile: Scopus

Featured Publications

  1. Lin K.W.*, Development of hybrid PEM fuel cell and Li-ion battery systems for next-generation electric vehicles. Int. J. Hydrogen Energy, 2024, Accepted.

  2. Lin K.W.*, Wu H.T., Chen C.Y., Techno-economic analysis of hydrogen production via thermochemical reforming of bioethanol. Energy Convers. Manag., 2023, 297, 117454.

  3. Lin K.W.*, Yang M.S., Exergy and environmental assessment of HT-PEM fuel cell systems for maritime applications. Appl. Energy, 2023, 341, 121052.

  4. Lin K.W.*, Liu P.J., Integration of catalyst development and reforming processes for high-efficiency hydrogen generation. Fuel Process. Technol., 2022, 234, 107339.

  5. Lin K.W.*, Chen S.H., Clean combustion strategies for biodiesel engines: Experimental and modeling approaches. Renew. Energy, 2021, 180, 890–902.

Dr. Cangbi Ding | Grid Integration of Renewable Energy | Best Academic Researcher Award

Published on by Electrical Engineering

Dr. Cangbi Ding | Grid Integration of Renewable Energy | Best Academic Researcher Award

Doctoral candidate at Nanjing University of Aeronautics and Astronautics, China

Cangbi Ding is a dedicated doctoral candidate at the Nanjing University of Aeronautics and Astronautics, specializing in the field of automation and power systems. With a solid academic foundation and a growing portfolio of impactful research, he has emerged as a promising scholar in the areas of high-voltage direct current (HVDC) systems, renewable energy integration, and power system stability control. His work is marked by innovation, technical rigor, and contributions that bridge both academic inquiry and industrial practice, positioning him as a strong candidate for recognition in international research awards.

Professional Profile

Scopus | Google Scholar

Education

Cangbi Ding began his academic journey by earning a Bachelor of Science degree in automation from Southeast University Chengxian College. He advanced his studies by pursuing a Master of Science degree at Nanjing University of Posts and Telecommunications, where he graduated with a focus on electrical engineering applications and automation technologies. Building upon this strong foundation, he is currently pursuing a Doctor of Philosophy degree in the College of Automation Engineering at the Nanjing University of Aeronautics and Astronautics. His doctoral research emphasizes planning and control methodologies for HVDC systems, a field that plays a crucial role in enhancing the efficiency and resilience of modern power grids. This progression highlights his commitment to advancing knowledge in the field of power and energy systems.

Experience

Throughout his academic career, Cangbi Ding has accumulated extensive experience through his involvement in numerous national and industrial research projects. He has actively participated in four projects funded by the National Natural Science Foundation of China, in addition to contributing to thirteen technological and consulting initiatives supported by the State Grid Corporation of China and the China Southern Power Grid Company. These experiences have equipped him with practical insights into large-scale energy systems while also refining his ability to bridge theory with real-world application. His consultancy roles in the energy sector reflect his capacity to provide innovative solutions for power system stability, grid modernization, and renewable energy integration. This blend of academic research and industrial collaboration illustrates his versatility and practical relevance as a researcher.

Research Focus

Cangbi Ding’s research centers on the integration of renewable energy into existing power grids, with particular emphasis on the planning and control of HVDC systems. His investigations into reactive power compensation after renewable energy integration address critical challenges in maintaining voltage stability and economic efficiency in power networks. By introducing both static and dynamic voltage stability indicators, he has proposed staged compensation methods that improve both system safety and cost-effectiveness. Another significant contribution is his work on HVDC system evolution, where he developed evaluation methods to classify systems and analyze their operational characteristics. His research not only advances academic understanding but also provides actionable methodologies for improving energy transmission infrastructure in the context of growing renewable energy adoption.

Awards & Honors

While still in the early stages of his academic career, Cangbi Ding has built a commendable record of achievements that reflect his innovation and technical acumen. His involvement in nationally significant projects, combined with his success in patenting technological innovations, underscores his contributions to the field. He has secured twelve granted invention patents and one utility model patent, an extraordinary accomplishment for a young researcher. These recognitions illustrate his capacity to transform theoretical advancements into practical innovations, positioning him as a standout contributor to the future of electrical engineering and power systems research.

Publication Top Notes

Title: Adaptive frequency control strategy for PMSG-based wind power plant considering releasable reserve power
Authors: J Dai, C Ding, X Zhou, Y Tang
Journal: Sustainability 14 (3), 1247

Title: Deep reinforcement learning-based voltage control method for distribution network with high penetration of renewable energy
Authors: S Liu, C Ding, Y Wang, Z Zhang, M Chu, M Wang
Journal: 2021 IEEE Sustainable Power and Energy Conference (iSPEC), 287-291

Title: Data-driven prediction of wind turbine blade icing
Authors: L Liu, D Guan, Y Wang, C Ding, M Wang, M Chu
Journal: 2021 China Automation Congress (CAC), 5211-5216

Title: Robust optimization method of power system multi resource reserve allocation considering wind power frequency regulation potential
Authors: J Dai, C Ding, C Yan, Y Tang, X Zhou, F Xue
Journal: International Journal of Electrical Power & Energy Systems 155, 109599

Title: An adaptive ufls scheme incorporating the impact of load response
Authors: W Zhu, C Ding, J Wu
Journal: 2021 IEEE Sustainable Power and Energy Conference (iSPEC), 2617-2622

Title: An active power coordination control strategy for AC/DC transmission systems to mitigate subsequent commutation failures in HVDC systems
Authors: X Zhou, C Ding, J Dai, Z Li, Y Hu, Z Qie, F Xue
Journal: Electronics 10 (23), 3044

Title: Research on the multi-timescale optimal voltage control method for distribution network based on a DQN-DDPG algorithm
Authors: M Ma, W Du, L Wang, C Ding, S Liu
Journal: Frontiers in Energy Research 10, 1097319

Title: Optimal Configuration Method for Multi-Type Reactive Power Compensation Devices in Regional Power Grid with High Proportion of Wind Power
Authors: Y Wang, J Dang, C Ding, C Zheng, Y Tang
Journal: Energy Engineering 121 (11)

Title: Research on the Optimal Configuration of Regional Integrated Energy System Based on Production Simulation
Authors: T Shi, RM Huang, CB Ding
Journal: Processes 8 (8), 892

Title: Research on The Fault Diagnosis Method of Oil-Immersed Transformers Based on The Improved DBSCAN Algorithm
Authors: W Cui, M Chu, C Ding, Y Wang, M Wang, L Liu
Journal: 2021 China Automation Congress (CAC), 5171-5176

Title: Voltage Interaction Evaluation in Embedded DC Transmission System
Authors: C Ding, C Zheng, Y Tang, C Zhang, X Han
Journal: Journal of Modern Power Systems and Clean Energy

Title: Cooperative Operation Control Strategy of Multi-Type Reactive Power Compensation Devices in Regional Power Grid with High Proportion of Wind Power
Authors: J Xu, Y Shen, K Li, X Wang, C Zheng, C Ding
Journal: 2024 6th International Conference on Electrical Engineering and Control

Title: Key Parameters Optimization Method of Wind Turbine Reactive Power Support Considering Power Angle Stability and Short-Circuit Current
Authors: J Xu, Y Shen, K Li, X Wang, C Zheng, C Ding
Journal: 2024 IEEE PES 16th Asia-Pacific Power and Energy Engineering Conference

Title: Coordinated CFPREV Control for Cascading Commutation Failure Mitigation in Multi-infeed HVDC Systems
Authors: J Xu, K Li, Y Shen, X Wang, C Zheng, C Ding
Journal: 2023 2nd Asia Power and Electrical Technology Conference (APET), 131-138

Title: Cooperative Reactive Power Configuration of Hybrid HVDC Transmission System for Offshore Wind Farm Clusters
Authors: Y Lin, Y Tang, W Wu, C Ding, C Zheng, Y Tang
Journal: 2023 IEEE 7th Conference on Energy Internet and Energy System Integration

Title: Research on Equivalent Modeling of Wind Farm Based on Error Correction Method
Authors: J Dai, C Ding, L Liu
Journal: 2022 International Conference on Cyber-Physical Social Intelligence (ICCSI)

Title: Optimal Scheduling Analysis of Wind Farm Group Considering False Data Injection Attack
Authors: J Wu, C Ding, W Zhu
Journal: 2022 34th Chinese Control and Decision Conference (CCDC), 5433-5439

Title: Research on HVDC Subsequent Commutation Failure Suppression Strategy Considering Energy Storage Phase Modulation Operation
Authors: C Ding, W Zhu, S Liu, W Cui, Z Zhang, J Wu
Journal: 2021 IEEE Sustainable Power and Energy Conference (iSPEC), 1177-1182

Conclusion

Cangbi Ding’s academic journey and research accomplishments exemplify a blend of scholarly rigor, innovation, and practical relevance. With a foundation of strong academic training, significant project involvement, and a growing portfolio of publications and patents, he has already established himself as a promising researcher in electrical engineering. His focus on HVDC systems and renewable energy integration directly addresses pressing global challenges in energy sustainability and grid modernization. By translating complex theoretical concepts into practical solutions, he demonstrates the capacity to shape the future of power systems. His achievements make him an outstanding nominee for recognition in research excellence awards, reflecting his potential to continue contributing groundbreaking work to the advancement of electrical engineering.