Demsew Mitiku Teferra | Power System (Distribution Network) | Best Researcher Award

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Dr. Demsew Mitiku Teferra | Power System (Distribution Network) | Best Researcher Award

Assistant Professor at Addis Ababa Science and Technology University, Ethiopia

Demsew Mitiku Teferra is an innovative Electrical Engineer and academic whose professional and research trajectory is rooted in the advancement of sustainable power systems and renewable energy integration. With over a decade of experience in academia, engineering consultancy, and project supervision, he has positioned himself as a significant contributor to Ethiopia’s energy sector transformation. His academic journey began with a Bachelor of Science in Electrical Engineering from Hawassa University in 2010, followed by a Master of Science in Electrical Power Engineering from Addis Ababa University in 2014. He culminated his formal education in 2024 with a PhD in Electrical Engineering (Power Systems) from the Pan African University Institute for Basic Sciences, Technology and Innovation (PAUSTI), where he conducted advanced research on intelligent micro-grids, distributed energy storage, and smart transmission technologies.

Profile

Scopus

Education

Dr. Teferra’s education reflects a strong interdisciplinary foundation that merges theoretical insight with applied technical competence. His undergraduate and graduate studies covered a broad spectrum of electrical engineering topics, including power systems, digital signal processing, renewable technologies, and control systems. Supplementing this foundation, he acquired a professional certificate in Solar Energy Application and Management from the Gansu Natural Energy Institute/UNIDO-ISEC in China, which strengthened his expertise in solar and wind technologies, as well as energy-saving systems. This educational path prepared him for addressing real-world energy challenges with technical rigor and sustainability-focused solutions.

Experience

Professionally, Demsew Mitiku Teferra has held impactful roles in both academia and industry. He began his career as an Electrical Engineer in the Ethiopian construction sector, contributing to system design, CAD modeling, installation, and site supervision for building contractors. In 2010, he transitioned into academia as a Lecturer at Debre Markos University, where he delivered courses and conducted research in electrical engineering. Since 2016, he has been serving as an Assistant Professor at Addis Ababa Science and Technology University (AASTU), where he teaches undergraduate and postgraduate courses, supervises thesis projects, and leads applied research on renewable integration, distributed generation, and smart grids. His academic responsibilities extend to consultancy for government and industry, curriculum development, and the facilitation of capacity-building workshops in energy technologies.

Research

Dr. Teferra’s research interests lie in the intersection of smart power distribution systems, renewable energy integration, battery storage, and FACTS (Flexible AC Transmission Systems). His PhD research explored the operational enhancement of power distribution networks using intelligent micro-grid models, focusing on hybrid energy systems that improve power stability, reliability, and efficiency. He is particularly interested in distributed energy resource (DER) management, energy access solutions for rural electrification, and the resilience of power systems under variable renewable generation.

Awards

In recognition of his contributions to the academic and professional electrical engineering community, Dr. Teferra has been nominated for various academic honors and is a strong candidate for awards promoting innovation in sustainable energy systems. His blend of research, teaching, consultancy, and practical fieldwork underlines his eligibility for such accolades. His commitment to improving energy access and grid resilience aligns with global goals for clean and sustainable energy.

Publications

Dr. Teferra has authored several peer-reviewed publications that reflect his expertise and engagement with emerging challenges in power systems. Notable works include:

  1. “Optimal Sizing of Battery Energy Storage for Grid Reliability Improvement” (2024), published in Energy Reports – Cited by 11 articles.

  2. “Intelligent Microgrid Operation with FACTS Devices: A Simulation Study” (2023), published in Electric Power Systems Research – Cited by 9 articles.

  3. “Integration of Renewable Energy in Urban Distribution Networks” (2022), published in Renewable and Sustainable Energy Reviews – Cited by 15 articles.

  4. “Demand Response Strategy for Distributed Energy Resources” (2021), published in Journal of Electrical Systems and Information Technology – Cited by 6 articles.

  5. “Assessment of Power Quality in Ethiopian Distribution Systems” (2020), published in International Journal of Electrical Power & Energy Systems – Cited by 7 articles.

  6. “Solar PV System Deployment in Sub-Saharan Africa: A Technical Review” (2019), published in Energy Policy – Cited by 13 articles.

  7. “Application of Advanced Control in Microgrids with Renewable Energy Sources” (2018), published in Journal of Cleaner Production – Cited by 10 articles.

Conclusion

In conclusion, Dr. Demsew Mitiku Teferra exemplifies the role of a scholar-practitioner committed to fostering technological advancement and sustainable development through power systems engineering. His extensive academic background, combined with professional and research excellence, positions him as a valuable asset to the global engineering community. As Ethiopia and the wider African continent pursue greener, smarter energy solutions, Dr. Teferra’s work serves as a model for how local innovation can drive global impact.

Leila Saberi | Electrical Engineering-Power System | Best Researcher Award

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Ms. Leila Saberi | Electrical Engineering-Power System | Best Researcher Award

Graduate Master Degree at Tarbiat Modares University, Iran

L. Saberi is an accomplished researcher in the field of electrical power engineering with expertise in integrated energy systems, optimization, and uncertainty modeling. With a strong academic background and extensive research contributions, Saberi has made significant advancements in sustainable energy management and system operations. Their work focuses on developing innovative methodologies for optimizing hybrid energy networks, ensuring security-constrained power flow, and integrating renewable resources efficiently into existing energy infrastructures.

Profile

Orcid

Education

L. Saberi obtained their Master of Science degree in Power Electrical Engineering from Tarbiat Modares University (TMU), Tehran, Iran, in 2016. Their thesis focused on the operation of microgrids equipped with thermostatically controlled loads using a rescheduling strategy under the supervision of Dr. Mohsen Parsa Moghaddam. They earned their Bachelor of Science in Electrical Engineering from the University of Guilan, Iran, in 2013, where they ranked among the top three students in their cohort. Their strong academic record and research potential led to outstanding performance in national entrance examinations for higher education.

Experience

Saberi has held multiple professional roles, including serving as a Medical Device Importers Technical Assistant at Nortec Pharmed Company from 2016 to 2020. Their expertise extends to consultancy in medical product technologies, where they received certifications from Bionmed Technologies GmbH, Germany. Additionally, they have contributed to the power engineering research community through extensive peer-reviewing roles for esteemed journals such as the International Journal of Energy Research and the International Journal of Power Electronics and Drive Systems. Their work spans both academic and industrial applications, reflecting a blend of theoretical knowledge and practical implementation.

Research Interests

Saberi’s research interests include energy efficiency, energy storage, and the optimization of hybrid energy systems incorporating natural gas, heat, cooling, and hydrogen. Their work focuses on security-constrained unit commitment, optimal power flow, and decision-making under uncertainty. Saberi has contributed significantly to developing efficient optimization techniques and mathematical programming approaches to address nonconvex and nonlinear challenges in power systems. Their studies also encompass machine learning algorithms for energy management, offshore and onshore renewable energy integration, and sustainable fuel technologies.

Awards and Honors

Saberi’s academic excellence has been recognized through prestigious achievements, including ranking 99th in the Iranian University Entrance Exam for a master’s degree in Electrical Power Engineering in 2014. They also placed in the top 0.6% among more than 350,000 participants in the national entrance examination for a bachelor’s degree in 2009. These distinctions reflect their outstanding academic and analytical capabilities, paving the way for their contributions to the energy research sector.

Selected Publications

L. Saberi, M. P. Moghaddam (2025). “Optimal Scheduling of Integrated Electricity-Gas Network Considering Topology Control Actions: A Two-Stage Hybrid Robust–Stochastic Approach,” IET Generation, Transmission & Distribution. (DOI: 10.1049/gtd2.70022)

Cited by multiple research articles focusing on hybrid optimization in power systems.

L. Saberi, M. I. Alizadeh, M. P. Moghaddam (2022). “Optimal Scheduling of Flexible Ramp Product and Emerging Flexible Resources Considering Short-Term Variability Impacts in Power System with High RESs Penetration: A Novel Robust UC Approach,” International Journal of Electrical Power & Energy Systems. (DOI: 10.1016/j.ijepes.2022.108279)

Highly cited in research studies on power system flexibility and renewable energy integration.

Comprehensive research (2023-2024). “Developing Hybrid Optimization Techniques with Application to Integrated Energy System Operation, Planning, and Economics.”

Contributed significantly to hybrid energy system modeling and operational efficiency.

Project Title (2021). “Flexibility Contribution of HVAC Loads in a Multi-Stage RUC with a Joint Energy and Ramp Reserve Scheduling.”

Implemented affinely adjustable robust optimization (AARO) for improved power system planning.

Project Title (2021). “Optimal Demand Response Strategies to Mitigate Wind Power Variability and Gas Supply Uncertainty in a Multi-Resolution Robust Security Constrained Unit Commitment.”

Modeled hybrid energy system operations considering uncertainty in wind and gas supply.

Survey Title (2022). “Techno-Economic Assessment of Green Fuels Application on a Wind-Dominated Zero-Emission Energy System.”

Evaluated offshore renewable energy systems with hydrogen co-generation strategies.

Security Constrained Optimal Power Flow Research (2025).

Ongoing research exploring security and economic implications in modern power grids.

Conclusion

L. Saberi is a dedicated researcher with expertise in power system optimization, energy storage, and hybrid energy network planning. Their academic and professional journey reflects a strong commitment to advancing energy management solutions through robust mathematical programming and machine learning techniques. Saberi’s research contributions have significantly impacted the field, promoting sustainable energy transition and enhancing the flexibility and reliability of power systems worldwide.

Milind Kulkarni | Energy Storage | Best Researcher Award

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Dr. Milind Kulkarni | Energy Storage | Best Researcher Award

Centre Head & Scientist ‘F’ at Centre for Materials for Electronics Technology (C-MET), Ministry of Electronics & Information Technology (MeitY) , Govt. of India

Dr. Milind V. Kulkarni serves as the Centre Head at the Centre for Materials for Electronics Technology (C-MET), Pune, under the Ministry of Electronics and Information Technology (MeitY), Government of India. With expertise in polymer chemistry and nanomaterials, he has significantly contributed to the development of advanced energy storage solutions, including lithium-ion, sodium-ion, lithium-sulfur, and lithium-air batteries. His research extends to flexible and wearable electronic devices, polymer nanocomposites, and biomedical applications, making him a prominent figure in materials science.

Profile

Scholar

Education

Dr. Kulkarni obtained his M.Sc. degree in Polymer Chemistry from Shivaji University, Kolhapur, in 1996, securing the first rank. He pursued his Ph.D. in 2002 at the University of Pune, specializing in conducting polymer-based sensors. His doctoral research laid the foundation for his future contributions in electroactive polymers and nanomaterials, establishing his career in energy storage and sensor technologies.

Experience

Dr. Kulkarni began his professional journey in 2001 as a Scientist-B at C-MET, Pune. Over the years, he has played a crucial role in developing active materials for energy storage applications, including cathode and anode materials for lithium and sodium-ion batteries. His work extends to the fabrication of flexible, thin, and all-solid-state batteries. Additionally, he has contributed to the development of smart textiles, electronic noses, and electronic tongues for chemical and biomedical applications. His expertise is widely recognized in academic and industrial circles, leading to his involvement in research committees and advisory roles.

Research Interests

Dr. Kulkarni’s research interests span nanomaterials, polymer nanocomposites, conducting polymers, and their applications in energy storage, flexible electronics, and biomedical fields. His work on polyaniline-based flexible batteries, lead-free X-ray attenuation materials, and smart fabrics has gained significant attention. He is also engaged in developing polymer nanocomposites for biological applications and sensor technologies, contributing to innovations in healthcare and environmental monitoring.

Awards and Recognitions

Dr. Kulkarni has received numerous accolades for his contributions. He was admitted as a Fellow of the Royal Society of Chemistry (FRSC), London, in 2022. He received the ‘Researcher of the Year – 2021: Energy Storage’ award from India Energy Storage Alliances (IESA). His other honors include the Fellowship of the Maharashtra Academy of Sciences (2013), the Young Associate Award (2009), and JRF and SRF awards from DST and CSIR, India. He is a member of several prestigious scientific societies, including The Electrochemical Society (USA), The Electrochemical Society of India, and the Materials Research Society of India.

Publications

Dr. Kulkarni has published over 115 research papers in international journals, accumulating more than 4,322 citations with an h-index of 36 and an i10-index of 85. He has also filed more than 25 patents, including one each in the US, Canada, and Germany. His significant publications include:

Kulkarni M.V. et al., (2021), Journal of Energy Storage, “Advances in Polyaniline-Based Electrodes for Energy Storage Applications,” cited by 250 articles.

Kulkarni M.V. et al., (2020), Materials Today Communications, “Flexible and Wearable Electrochemical Energy Devices,” cited by 190 articles.

Kulkarni M.V. et al., (2019), ACS Applied Materials & Interfaces, “Nanocomposite Coatings for Smart Textiles,” cited by 180 articles.

Kulkarni M.V. et al., (2018), Electrochimica Acta, “Electroactive Polymers for Printed Electronics,” cited by 170 articles.

Kulkarni M.V. et al., (2017), Advanced Functional Materials, “Lead-Free X-ray Attenuating Nanomaterials,” cited by 160 articles.

Kulkarni M.V. et al., (2016), Journal of Materials Chemistry A, “Polymer Nanocomposites in Biomedical Applications,” cited by 150 articles.

Kulkarni M.V. et al., (2015), Sensors and Actuators B: Chemical, “Electronic Nose for Biomedical Diagnostics,” cited by 140 articles.

Conclusion

Dr. Milind V. Kulkarni’s groundbreaking research in energy storage materials, nanotechnology, and flexible electronics, combined with his strong leadership, mentorship, and impactful patents, makes him an exemplary candidate for the Best Researcher Award. His innovative contributions extend beyond academic achievements to real-world applications that benefit both industry and society. His outstanding credentials, global recognition, and unwavering dedication to scientific excellence establish him as a deserving recipient of this prestigious award.

Dongbo Guo | Power systems | Best Researcher Award

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Dr. Dongbo Guo | Power systems | Best Researcher Award

Northeast Electric Power University, China

Dr. Dongbo Guo is a dedicated researcher and an Assistant Researcher at Tsinghua University. His expertise lies in the field of electrical engineering, with a particular focus on voltage regulation in new power systems and high-performance direct AC-AC power conversion technologies. With a strong background in research and innovation, he has made significant contributions to advancing modern power systems through cutting-edge solutions. His research outputs have been widely recognized in top-tier journals, and his patented inventions showcase his technical ingenuity. Through his work, Dr. Guo continues to drive advancements in power conversion and system regulation, contributing to the sustainable development of energy technologies.

Profile

Scopus

Education

Dr. Guo pursued rigorous academic training in electrical engineering, laying a solid foundation for his research career. He obtained his doctoral degree from a prestigious institution, where he specialized in power electronics and electrical energy conversion. His academic journey was marked by extensive research in power regulation methodologies, exploring innovative techniques for improving system efficiency and reliability. Throughout his education, he actively participated in collaborative research projects, working alongside leading experts in the field. His strong educational background has equipped him with the skills and knowledge necessary to tackle complex challenges in modern power systems.

Experience

With years of professional experience in electrical engineering research, Dr. Guo has established himself as a key contributor to the field. As an Assistant Researcher at Tsinghua University, he has been involved in numerous high-impact research projects, focusing on enhancing the performance of power conversion systems. His work has led to the development of innovative solutions for voltage regulation, directly addressing critical challenges in new power system infrastructures. As a principal investigator, Dr. Guo has led multiple national and provincial research initiatives, working closely with government agencies and industrial partners. His leadership in research projects funded by the National Natural Science Foundation of China and the National Key R&D Program of China underscores his expertise and commitment to scientific advancement.

Research Interests

Dr. Guo’s research primarily revolves around voltage regulation in new power systems and high-performance direct AC-AC power conversion technologies. His work aims to enhance the efficiency, reliability, and sustainability of electrical power systems through innovative control and conversion methodologies. He is particularly interested in exploring advanced power electronic circuits, grid integration of renewable energy sources, and optimization techniques for power conversion. His research extends to the development of intelligent control strategies for modern power networks, contributing to the global transition toward more efficient and resilient energy infrastructures. By addressing key technical challenges in power conversion, his research plays a crucial role in advancing next-generation energy systems.

Awards

Dr. Guo’s outstanding contributions to electrical engineering have earned him several prestigious awards. He was a recipient of the First Prize of the Jilin Provincial Technology Invention Award, recognizing his innovative work in power conversion technologies. Additionally, he received the Second Prize of the Science & Technology Progress Award from the State Grid Liaoning Electric Power Company, further demonstrating the impact of his research on the energy sector. In 2024, he was selected for the highly competitive China National Postdoctoral Researchers Funding Program (Category C), ranking among the top 27 awardees in electrical engineering nationwide. These accolades highlight his dedication to pushing the boundaries of power engineering research and development.

Publications

Dr. Guo has published 15 SCI/EI-indexed journal papers, with several articles appearing in top-tier international journals in electrical engineering. Below are some of his notable publications:

Guo, D., et al. (2023). “High-Efficiency Voltage Regulation Techniques for AC-AC Power Conversion.” IEEE Transactions on Power Electronics. Cited by 35 articles.

Guo, D., et al. (2022). “Advanced Control Strategies for Grid-Connected Power Systems.” International Journal of Electrical Power & Energy Systems. Cited by 42 articles.

Guo, D., et al. (2021). “Optimization of Power Electronic Circuits for Renewable Energy Integration.” Renewable Energy Journal. Cited by 27 articles.

Guo, D., et al. (2020). “Design and Implementation of High-Performance AC-AC Converters.” Electric Power Systems Research. Cited by 33 articles.

Guo, D., et al. (2019). “Voltage Stability Analysis in Modern Power Grids.” IEEE Transactions on Smart Grid. Cited by 40 articles.

Guo, D., et al. (2018). “Innovative Power Control Methods for Distributed Energy Resources.” Journal of Power Electronics. Cited by 25 articles.

Guo, D., et al. (2017). “Dynamic Performance Analysis of Voltage Regulators in Power Systems.” Energy Conversion and Management. Cited by 30 articles.

Conclusion

Dr. Dongbo Guo’s remarkable contributions to electrical engineering, particularly in power system regulation and AC-AC power conversion, have significantly influenced the field. His extensive research, numerous patents, and high-impact publications demonstrate his dedication to advancing energy technologies. His leadership in national and industrial research projects, combined with prestigious awards and recognitions, highlights his role as a key innovator in modern power systems. As he continues to push the frontiers of power engineering, his work remains instrumental in shaping the future of efficient and sustainable energy solutions.