Sang-Yong Park | Electrical Engineering | Best Researcher Award

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Prof. Sang-Yong Park | Electrical Engineering | Best Researcher Award

Assistant Professor, Chosun University, South Korea

Sang-Yong Park is a leading expert in fire protection and power system safety, specializing in DC power systems, circuit breaker technology, superconducting current limiters, and arc plasma. As a professor at Chosun University in Gwangju, South Korea, his work focuses on developing fire prevention solutions and investigating fire causes using advanced technologies. He has contributed significantly to the fields of electrical engineering and fire safety, particularly ensuring the stability and safety of power systems through his research on superconducting current limiters and arc plasma.

Publication Profile

ORCID

Education:

Sang-Yong Park completed his Doctorate in Electrical Engineering from Chosun University in Gwangju, South Korea, between 2018 and 2022. His extensive education has shaped his career in fire and disaster management, equipping him with the necessary skills to innovate in fire protection and power system safety.

Experience:

Currently, Dr. Park serves as a professor in the Fire and Disaster Management department at Chosun University, where he has been employed since March 2023. He has an extensive academic and research career, working on projects aimed at improving the safety of electrical power systems and fire prevention techniques. He brings deep technical knowledge of DC power systems and superconducting current limiters, alongside hands-on experience in analyzing and preventing fire risks associated with electrical arcs.

Awards and Honors:

Dr. Park’s work has earned him recognition in the field, particularly for his innovative research on superconducting current limiters and fire protection. His contributions to power system safety have garnered international attention and continue to influence the field’s evolution.

Research Focus:

Dr. Park’s research primarily focuses on fire prevention and power system safety, with particular attention to DC power systems, circuit breaker technologies, and superconducting current limiters. His work seeks to mitigate the risks of electrical fires by analyzing arc plasma behavior and designing more effective fire protection systems. He is dedicated to improving the safety and reliability of power systems through innovative engineering solutions that minimize the risk of fire and system failure.

Conclusion:

With his deep expertise in fire protection and electrical safety, Dr. Sang-Yong Park is at the forefront of addressing the critical safety challenges in power systems today. His innovative approaches and research have made significant contributions to fire protection solutions, ensuring both stability and safety in power systems.

Publications:

Operation Characteristics of a Mechanical DC Circuit Breaker With a Resistive Superconducting Element for High-Reliability HVDC Applications
Published in: IEEE Transactions on Applied Superconductivity, 2023-08
DOI: 10.1109/TASC.2023.3249133

The Structural and Electromagnetic Comparative Analysis of the Bifilar-Meander-Type Winding Method of Superconducting DC Circuit Breaker
Published in: Energies, 2023-02-13
DOI: 10.3390/en16041866

The Modeling of the LC Divergence Oscillation Circuit of a Superconducting DC Circuit Breaker Using PSCAD/EMTDC
Published in: Energies, 2022-01-21
DOI: 10.3390/en15030780

Characteristics of a Superconducting DC Circuit Breaker According to L and C Elements of LC Divergent Oscillation Circuit
Published in: IEEE Transactions on Applied Superconductivity, 2021-11
DOI: 10.1109/tasc.2021.3107832

Operation Characteristics of Mechanical DC Circuit Breaker Combined with LC Divergence Oscillation Circuit for High Reliability of LVDC System
Published in: Energies, 2021-08-18
DOI: 10.3390/en14165097

Current Limiting Characterization by Winding Types in Superconducting DC Circuit Breaker
Published in: IEEE Transactions on Applied Superconductivity, 2021-08
DOI: 10.1109/tasc.2021.3061326

HTS FCL Module With Voltage of 500 V for DC Circuit Breaker
Published in: IEEE Transactions on Applied Superconductivity, 2021-08
DOI: 10.1109/tasc.2021.3069076

Analysis of Operating Characteristics of a Superconducting Arc-Induction Type DC Circuit Breaker Using the Maxwell Program
Published in: Journal of Electrical Engineering & Technology, 2021-03
DOI: 10.1007/s42835-021-00659-y

Characteristics of a Mechanical Circuit Breaker with New Induction Needle and Magnets Type to Extinguish a DC Arc
Published in: Journal of Magnetics, 2020-12-31
DOI: 10.4283/jmag.2020.25.4.491

Operation Characteristics for the Superconducting Arc-Induction Type DC Circuit Breaker
Published in: Energies, 2020-07-30
DOI: 10.3390/en13153897

Characteristics of a Current-Limiting DC Circuit Breaker with a Superconducting Coil Applied to the Commutation Circuit
Published in: Journal of Electrical Engineering & Technology, 2020-07
DOI: 10.1007/s42835-020-00469-8

 

IDRISS DAGAL | Electrical Engineering | Best Researcher Award

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Dr. IDRISS DAGAL | Electrical Engineering | Best Researcher Award

Assistant Professor, Istanbul Beykent University, Turkey

Dr. Idriss Dagal, an Assistant Professor at Istanbul Beykent University, is a researcher and engineer from Chad specializing in Electrical Engineering, Renewable Energy, and Artificial Intelligence. With a career spanning over a decade, he has worked in various roles, including Aircraft Engineer and Lecturer, and has contributed extensively to the field of electrical systems, power electronics, and optimization algorithms. His academic journey includes a Ph.D. from Yıldız Technical University, Istanbul, Turkey, where he also completed his MSc in Avionics Engineering. Dr. Dagal has authored over 30 publications and is an active reviewer for renowned journals. 🌍💡

Publication Profile

ORCID

Education:

Dr. Dagal holds a Bachelor of Science (B.S.) degree in Industrial and Maintenance Engineering from Mongo Polytechnic University (Chad, 2006), a Master of Science (M.Sc.) in Aviation Engineering from Ethiopian Airlines Aviation School (Ethiopia, 2010), and a Ph.D. in Electrical Engineering from Yıldız Technical University (Turkey, 2022). He is currently pursuing a second M.Sc. in Avionics Engineering at Yıldız Technical University. 🎓📚

Experience:

Dr. Dagal’s professional experience spans multiple countries and roles, including serving as an Aircraft Maintenance Engineer in Chad, a Lecturer at various institutions in Chad, and a Sales Engineer in Turkey. Since 2024, he has been serving as an Assistant Professor at Istanbul Beykent University, Turkey, specializing in electrical engineering, renewable energy, and avionics. 🛠️✈️

Awards and Honors:

Dr. Dagal has received several prestigious awards, including the Chad’s Government National Scholarship (2003), Ethiopian Airlines Aviation School International Scholarship (2008), Turkish Government International Scholarship (2015), Young Research Scholarship Award for Eurasia Research (2019), and the Leadership Skills African Civic Engagement Academy (2022). 🏆🌟

Research Focus:

Dr. Dagal’s research interests are centered on optimization algorithms, artificial intelligence, renewable energy systems, power electronics, and aircraft control systems. His doctoral research focused on optimizing photovoltaic battery charging systems using hybrid particle swarm-based algorithms. He has a strong background in developing control mechanisms for sustainable energy systems and dynamic systems in aviation. 🔋🔧🚀

Conclusion:

Dr. Idriss Dagal is an accomplished academic and researcher who combines his expertise in electrical and aerospace engineering with a deep commitment to renewable energy and technology optimization. His interdisciplinary work continues to contribute to advancements in energy systems, aircraft control, and smart technologies. 🌱💻

Publications 

Energy transfer from PV panel to Battery via Buck-Boost Converter, International Journal of Technology and Science, Vol. 5, Issue 3, pp. 46-60, 26 November 2019. DOI

Improved salp swarm algorithm based on particle swarm optimization for maximum power point tracking of optimal photovoltaic systems, International Journal of Energy Research, 2022; 1-18. DOI: 10.1002/er.7753. Impact Factor: 4.3, Q1.

MPPT mechanism based on novel hybrid particle swarm optimization and salp swarm optimization (PSOSSO) algorithm for battery charging through Simulink, Scientific Reports Journal, 2022; 12:2664. DOI. Impact Factor: 3.8, Q1.

A Novel Hybrid Series Salp Particle Swarm Optimization (SSPSO) for Standalone Battery Charging Applications, Ain Shams Engineering Journal, 2022; 13:10174. DOI. Impact Factor: 6, Q1.

Improved Particle Swarm Optimization based Buck-Boost converter (IPSOBBC) for Photovoltaic System Application, Recent Advances in Science & Engineering (RASE), 2022.

Transformer rail-tapped buck-boost converter design-based feedback controller for battery charging systems, Energy Storage Journal, 2022; e414, DOI. ESCI.

Secure and Optimized Satellite Image Sharing based on Chaotic eπ Map and Racah Moments” Expert Systems with Applications, Volume 236, February 2024, 121247, DOI: 10.1016/j.eswa.2023.121247. Impact Factor: 7.5, Q1.

Hybrid SSA-PSO-based intelligent direct sliding-mode control for extracting maximum photovoltaic output power and regulating the DC-bus voltage, International Journal of Hydrogen Energy, Volume 51, Part C, 2 January 2024, Pages 348-370, DOI. Impact Factor: 8.1, Q1.

An Improved Constant Current Step-based Grey Wolf Optimization Algorithm for Photovoltaic Systems, Journal of Intelligent & Fuzzy Systems, 2024, DOI. Impact Factor: 1.7, Q3.

A Modified Multi-Stepped Constant Current Based on Grey Wolf Algorithm for Photovoltaics Applications, Springer, Electrical Engineering, 2024, DOI. Impact Factor: 1.6, Q3.