Shilong Huang | UHV Power Line | Industry Innovator Award

Posted on by ScienceFather

Dr. Shilong Huang – UHV Power Line – Industry Innovator Award

North China Electric Power University | China

      Profiles

Orcid

scopus

📍Current Position

Dr. Huang Shilong currently serves as the Manager of the Science and Technology Department at North China Electric Power University. His work focuses on advancing high-voltage technology, particularly in the field of Ultra High Voltage (UHV) transmission and transformation. His role involves overseeing research initiatives and promoting technological innovation in power transmission systems, which are vital for China’s growing energy infrastructure.

 

📝Publication Achievements

With over 30 SCI-indexed papers published as either the first or corresponding author, Dr. Huang has made significant contributions to the fields of high-voltage technology and insulation design. His research papers, featured in prestigious journals such as CSEE JPES and EPSR, cover topics including corona effect and discharge theory. Additionally, Dr. Huang holds five national invention patents and has authored a monograph. His research outputs have not only advanced knowledge but have also provided practical solutions for the power transmission industry.

 

🔍Ongoing Research

Dr. Huang’s ongoing research delves into the complexities of corona effects and insulation design for UHV systems in challenging environments, such as high-altitude and sandstorm-prone areas. He is also investigating the industrial applications of micro-hollow cathode discharge and improving the insulation properties of solid materials. His work aims to enhance the reliability and efficiency of power transmission equipment, thereby supporting sustainable energy distribution.

 

🔬 Research Interests

Corona Effect: Investigating the impact of corona discharges on power transmission and methods to mitigate its effects.

Insulation Design: Focusing on the design of insulating materials and systems that can withstand harsh environmental conditions.

Discharge Theory: Examining discharge mechanisms and their application in high-voltage technology.

Micro-Hollow Cathode Discharge: Exploring industrial applications and potential improvements in insulation performance.

 

🎓Academic Background

Dr. Huang holds a Ph.D. in high-voltage technology, which laid the foundation for his expertise in the field. He further honed his skills and knowledge during his research visit to the Plasma Laboratory at the Australian National University in 2018. His academic background has been instrumental in his career, enabling him to contribute to both theoretical advancements and practical applications in UHV transmission.

 

🏆Scholarships and Awards 

Throughout his career, Dr. Huang has received numerous accolades, including the Yanzhao Talent A Card and the Ministry of Education’s Science and Technology Progress Award (Second Prize). These honors recognize his outstanding achievements and dedication to advancing electrical engineering and power transmission technology.

 

🧬Bioinformatics 

While his primary focus is on high-voltage engineering, Dr. Huang’s research indirectly contributes to bioinformatics by addressing energy distribution and sustainability, which are critical to supporting various technological advancements, including computational biology and data analysis frameworks.

 

🌐Professional Associations 

IEEE: Young Professionals, Power & Energy Society, Sensors Council, and Electromagnetic Compatibility Society.

Chinese Society for Electrical Engineering (CSEE)

International Council on Large Electric Systems (CIGRE) He also serves on the organizing committees for major conferences, such as the IEEE Industry Application Society, demonstrating his leadership in the global high-voltage engineering community.

 

 📚Training & Workshops 

In addition to his research, Dr. Huang is committed to professional development. He regularly participates in workshops and training programs to stay updated on the latest advancements in high-voltage technology and related fields. His involvement in these activities reflects his dedication to continuous learning and improvement.

 

🎤Oral Presentations and🗣️Thought Leadership 

Dr. Huang has delivered numerous presentations at national and international conferences, sharing his research findings and insights with the broader scientific community. His ability to effectively communicate complex topics has made him a respected speaker in his field.

 

🧑‍🔬Tasks Completed as a Researcher 

As a researcher, Dr. Huang has led multiple projects, including one funded by the National Natural Science Foundation of China. His work spans various aspects of high-voltage technology, from corona effect prediction and control to improving insulation materials. These projects have provided valuable insights into the challenges and solutions related to UHV power transmission.

 

🚀Success Factors 

Dr. Huang attributes his success to a combination of hard work, continuous learning, and strong collaboration with his peers. His dedication to research and teaching, coupled with his innovative mindset, has enabled him to achieve significant milestones in his career.

 

🧪Publications & Laboratory Experience

Dr. Huang’s extensive publication record and laboratory experience underscore his expertise in high-voltage engineering. His research has led to practical applications, such as improving power transmission reliability, which are crucial for the energy sector. His hands-on experience in laboratory settings has also allowed him to bridge the gap between theoretical research and practical implementation.

 

🔍 Conclusion

In conclusion, Dr. Huang Shilong’s contributions to high-voltage technology have been both profound and far-reaching. As a leader in UHV transmission and transformation, his work continues to impact China’s energy sector and beyond. Dr. Huang’s commitment to innovation, research excellence, and talent development positions him as a key figure in the field of electrical engineering. His dedication and achievements not only strengthen his personal career but also contribute to the advancement of sustainable energy solutions globally.

📚Publications

Consistency Calibration Method for Solar-Blind Ultraviolet Discharge Detection Results Based on Optical Radiation Intensity | 基于光辐射强度的日盲紫外放电检测结果一致性校准方法

          Authors: Yonglin, L., Shilong, H., Yunpeng, L., Jianghai, G., Jiajun, Y.

          Journal :Diangong Jishu Xuebao/Transactions of China Electrotechnical Society

 

Experimental and theoretical study on the influence of bundle number on corona loss characteristics of ultra high voltage corona cage positive/negative DC conductors at high altitude

           Authors: Xue, W., Huang, S., Mao, J., … Song, C., Liu, Y.

          Journal : Electric Power Systems Research

 

The altitude correction term of the corona loss on alternating-current transmission lines

         Authors: Huang, S., Ha, L., Liu, Y.

         Journal : Energy Reports

 

Audible Noise Performance of High Voltage AC Conductor Bundles at an Altitude of 2261m

          Authors: He, W., Wan, B., Huang, S., … Zhang, J., Han, X.

         Journal : CSEE Journal of Power and Energy Systems

 

Chul-Won Park | World-class transmission grid operation platform | Best Researcher Award

Posted on by ScienceFather

Prof. Chul-Won Park – World-class transmission grid operation platform – Best Researcher Award

Gangneung-Wonju National University | South Korea

      Profiles

Orcid

📍Current Position

Dr. Chul-Won Park is a distinguished Professor at Gangneung-Wonju National University. Since joining in 1997, Dr. Park has been a pivotal figure in advancing the field of electrical engineering through research and education. His expertise spans smart substations, microgrids, and wide-area protection systems, positioning him as a key contributor to the development of innovative solutions in transmission grid operation.

 

📝Publication Achievements

Dr. Park has authored numerous research articles published in renowned journals such as Energies and the Journal of Electrical Engineering & Technology. His work focuses on high-precision analysis, modified algorithms, fault detection, and ground fault detection methods in DC microgrids. Some notable publications include:

“High-Precision Analysis Using μPMU Data for Smart Substations” (2024)

“Modified Power Flow Algorithm of AC-DC Power Network” (2023)

“New Fault Detection Method for Low Voltage DC Microgrid with Renewable Energy Sources” (2022)

 

🔍Ongoing Research

Dr. Park’s ongoing research explores the intersection of artificial intelligence and grid operations, focusing on enhancing fault detection capabilities. He is particularly interested in utilizing genetic algorithms for fault recovery and optimization within substations, contributing to the resilience and efficiency of the power grid.

 

🔬 Research Interests

Dr. Park’s research interests include:

Smart substations and the integration of microgrids

Fault detection and recovery in power systems

Frequency estimation techniques for grid stability

Optimization algorithms for power network management

 

🎓Academic Background

Dr. Park’s academic journey began with a Bachelor’s degree in Electrical Engineering from Sungkyunkwan University, followed by a Master’s and Ph.D. in the same field, which he completed in 1996. His foundational education laid the groundwork for his technical and innovative contributions to electrical engineering.

 

🏆Scholarships and Awards 

Throughout his career, Dr. Park has received numerous accolades, recognizing his excellence in research and his contributions to grid technology. These include industry-specific awards for his pioneering work in electrical engineering and national awards for advancing sustainable energy practices in South Korea.

 

🧬Bioinformatics 

Dr. Park applies bioinformatics methodologies in his research to analyze data on grid behavior and fault detection. By leveraging these techniques, he enhances grid performance and operational safety, addressing complex challenges within the energy sector.

 

🌐Professional Associations 

Dr. Park is a member of multiple professional associations, including the Korean Institute of Electrical Engineers (KIEE) and the Institute of Electrical and Electronics Engineers (IEEE). His active involvement in these organizations helps him stay at the forefront of the latest developments in electrical engineering and energy technology.

 

 📚Training & Workshops 

Dr. Park has participated in various workshops and training programs, focusing on advancements in smart grid technology, sustainable energy practices, and AI applications in power systems. These experiences have enriched his practical knowledge and teaching methodologies, which he shares with his students and peers.

 

🎤Oral Presentations and🗣️Thought Leadership 

Dr. Park is a frequent presenter at international conferences, where he shares insights on his research in fault detection, microgrids, and grid management. His presentations are well-regarded for their depth and practical relevance, often sparking further discussion and collaboration.

 

🧑‍🔬Tasks Completed as a Researcher 

Over the years, Dr. Park has undertaken a variety of tasks, including:

Developing high-precision algorithms for smart substations

Conducting field studies on ground fault detection

Designing and implementing simulation models for grid stability analysis

Collaborating with industry experts on sustainable grid solutions

 

🚀Success Factors 

Dr. Park attributes his success to a combination of continuous learning, innovation, and a collaborative spirit. His dedication to advancing grid technology and his ability to apply theoretical knowledge to practical solutions have been instrumental in his career achievements.

 

🧪Publications & Laboratory Experience

Dr. Park has co-authored over 15 publications and has extensive laboratory experience in fault detection, grid stability, and smart substation technologies. His work often involves close collaboration with other researchers and industry professionals to bring practical innovations to market.

🔍 Conclusion

Dr. Chul-Won Park’s career in electrical engineering is marked by his commitment to innovation and his contributions to sustainable energy. Through his teaching, research, and professional collaborations, he has shaped the field of grid technology, paving the way for future advancements. His work continues to inspire colleagues, students, and the broader energy community, reinforcing his reputation as a leader in transmission grid operation.

📚Publications

High-Precision Analysis Using μPMU Data for Smart Substations

          Authors: Kyung-Min Lee; Chul-Won Park

          Journal :Energies

 

Modified Power Flow Algorithm of AC/DC Power Network

           Authors: Kyung-Min Lee; Chul-Won Park

          Journal : Journal of Electrical Engineering & Technology

 

New Fault Detection Method for Low Voltage DC Microgrid with Renewable Energy Sources

         Authors: Kyung-Min Lee; Chul-Won Park

         Journal : Journal of Electrical Engineering & Technology

 

A Study on the Application of a Genetic Algorithm for the Fault Recovery of Substations

          Authors: Kyung-Min Lee; Chul-Won Park

         Journal : Journal of Electrical Engineering & Technology