Kyuil Kwak | Energy | Breakthrough Research Award

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Mr. Kyuil Kwak | Energy | Breakthrough Research AwardΒ 

Mr. Kyuil Kwak, Korea University, South Korea.

Mr. Kyuil Kwak is a Ph.D. candidate in Energy & Environment Policy at Korea University πŸŽ“. With expertise in energy system modeling, GHG assessment, and behavioral science, he contributes to cutting-edge research on carbon neutrality and sustainable technologies 🌱. Kyuil has presented at global conferences 🌍 and co-authored impactful publications πŸ“š. He also mentors undergraduates and supports policy-driven environmental modeling. His interdisciplinary approach bridges innovation, policy, and climate solutions for a greener future πŸ’‘πŸŒ.

Profile

Scopus Profile

Orcid profile

Google Scholar Profile

πŸŽ“ Early Academic Pursuits

Kyuil Kwak embarked on his academic journey with a Bachelor’s degree in Mechanical Engineering from Hongik University, where he focused on vehicle crashworthiness and impact energy absorption. His passion for environmental and energy sciences led him to pursue a Master’s in Atmospheric Chemistry at Korea University, where he conducted pivotal research on PM2.5 emissions at the Socheongcho Ocean Research Station. Currently, Kyuil is a Ph.D. candidate in Energy & Environment Policy at Korea University, under the guidance of Prof. JongRoul Woo.

πŸ’Ό Professional Endeavors

Kyuil’s professional path is deeply rooted in both academia and policy research. He has held several research and teaching assistantships at Korea University and worked as a researcher at The Seoul Institute and the National Institute of Forest Science. His role as a mentor in the Undergraduate Mentor Program and his extensive collaboration with Korea’s Ministry of Environment and Energy Economics Institute underscore his commitment to fostering energy transition and environmental sustainability.

πŸ”¬ Contributions and Research Focus On EnergyΒ 

Kyuil’s research lies at the intersection of energy system modeling, behavioral science, and environmental policy. His notable projects span GHG mitigation assessments, optimization of ESS in Jeju Island, and analysis of power-to-heat systems. He has developed bottom-up models for industrial sectors to evaluate carbon neutrality strategies and has led emission inventory evaluations for air quality management in Seoul.

🌍 Impact and Influence

Kyuil’s work has directly contributed to shaping environmental policies in Korea. His modeling expertise and use of tools like PyPSA, GAMS, and STATA enable advanced simulations that guide national strategies on emission reductions and energy transitions. His interdisciplinary approach, incorporating behavioral economics and innovation policy, adds a unique dimension to energy and environment studies.

🧠 Research Skills

He possesses strong technical capabilities in Python (PyPSA), GAMS, R, and STATA. His domain expertise includes discrete choice modeling, CVM, and simulation of energy systems. Kyuil is bilingual in Korean and English, further supporting his international academic collaborations and conference engagements.

πŸ… Awards and Honors

Kyuil has received several accolades, including β€œStudent of the Year” (2022) from the Graduate School of Energy and Environment at Korea University and multiple research assistant scholarships. His earlier work was recognized as a finalist in the 6th Student Creative Design Competition in Mechanical Design.

πŸ›οΈ Legacy and Future Contributions

With an impressive portfolio of interdisciplinary projects and impactful research, Kyuil is poised to become a thought leader in energy and environmental policy. His ongoing work on carbon neutrality technologies and integrated industry models positions him to significantly influence Korea’s sustainable development goals and contribute globally to climate change mitigation strategies.

Publications Top Notes

πŸ“˜ “Erosion function apparatus for scour rate predictions”
πŸ“ Journal: Journal of Geotechnical and Geoenvironmental Engineering
πŸ”’ Citations: 661
πŸ“… Year: 2001
🌊πŸ§ͺ Emoji: Soil erosion, lab testing, civil engineering

πŸ“˜ “Multiflood and multilayer method for scour rate prediction at bridge piers”
πŸ“ Journal: Journal of Geotechnical and Geoenvironmental Engineering
πŸ”’ Citations: 120
πŸ“… Year: 2001
πŸŒ‰πŸ’§ Emoji: Bridge safety, flood modeling

πŸ“˜ “Effects of policy instruments on electric scooter adoption in Jakarta, Indonesia: A discrete choice experiment approach”
πŸ“ Journal: Economic Analysis and Policy
πŸ”’ Citations: 22
πŸ“… Year: 2022
πŸ›΄πŸ“ŠπŸŒ Emoji: E-mobility, policy analysis, sustainability

πŸ“˜ “The SRICOS-EFA Method, Summary Report”
πŸ“ Journal: Texas A&M University Report
πŸ”’ Citations: 14
πŸ“… Year: 2011
πŸ“˜πŸ§±πŸ“‰ Emoji: Engineering method report, foundation stability

πŸ“˜ “The role of HONO in O₃ formation and insight into its formation mechanism during the KORUS-AQ Campaign”
πŸ“ Journal: Atmospheric Chemistry and Physics Discussions
πŸ”’ Citations: 12
πŸ“… Year: 2019
πŸŒ«οΈβš›οΈπŸ“ˆ Emoji: Air pollution, atmospheric chemistry, ozone research

Theophilus Adu Frimpong | Renewable Energy Resources | Best Researcher Award

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Mr. Theophilus Adu Frimpong | Renewable Energy Resources | Best Researcher Award

Mr. Theophilus Adu Frimpong, Cape Coast Technical University, Ghana.

Adu Theophilus Frimpong is a Lecturer in Renewable Energy at Cape Coast Technical University, specializing in sustainable energy technologies. He holds an MSc in Renewable Energy Technologies, a Certificate in Data Science, and is pursuing a PhD in Sustainable Energy Technologies. His research focuses on waste-to-energy conversion, green building materials, and climate change mitigation. With multiple SCI and Scopus-indexed publications, industry collaborations, and consultancy roles, he actively contributes to advancing renewable energy solutions for environmental sustainability and energy efficiency.

Professional Profile

πŸŽ“Β Education

Adu Theophilus Frimpong’s academic journey in the energy sector began with an MSc in Renewable Energy Technologies, followed by a Certificate in Data Science. Currently, he is in the final year of his PhD in Sustainable Energy Technologies, which has provided him with a robust foundation in both renewable energy and data analysis for research and development. These educational qualifications have equipped him with the expertise to make significant contributions to sustainable energy and waste management systems.

πŸ”¬Research Contributions On Renewable Energy Resources

Adu Theophilus Frimpong’s research focuses on integrated waste-to-energy systems, utilizing machine learning and GIS techniques to enhance waste management and energy recovery in Ghana. His work has contributed significantly to forecasting waste streams and optimal siting of waste-to-energy facilities. Through these innovations, Frimpong has advanced environmental sustainability, enabling more efficient waste resource management and supporting policy decisions for cleaner energy solutions. His ongoing research continues to drive impactful change in the field of renewable energy. πŸŒπŸ”‹

πŸ’Ό Work Experience

Adu Theophilus Frimpong has accumulated significant professional experience in renewable energy. He is currently a Lecturer in Renewable Energy at Cape Coast Technical University, where he imparts knowledge to future energy professionals. His roles as a Technical Consultant for the Ethanol-based Cookstove Project and Junior Consultant for the Santa 99 Green Revolution Solar Project have solidified his expertise. Additionally, he has served as a Technical Advisor for the Kinderhaus Kumasi Solar Project. πŸ’‘πŸŒ±βš‘

πŸ“– Books and Editorial Contributions

Dr. Frimpong is a contributor to the upcoming book Renewable Energy and Postharvest Management in Africa (Taylor & Francis, 2025), where he has authored chapters on:
πŸ“Œ Solar Cold Chain in Postharvest Management
πŸ“Œ Transitioning to Renewable Energy for Rural Development
πŸ“Œ Waste-to-Energy Conversion Systems

πŸ› οΈ Consultancy and Industry Projects

Dr. Frimpong has contributed to major energy projects, including:
βœ”οΈ Technical Consultant – Ethanol-Based Clean Cookstoves (2025)
βœ”οΈ Junior Consultant – Santa 99 Green Revolution Solar Project (2023-2024)
βœ”οΈ Technical Advisor – KiKue.V. Solar Photovoltaic Project (2018-2022)

πŸ…ImpactandΒ HonorsΒ 

Adu Theophilus Frimpong has significantly impacted the field of renewable energy, particularly through his pioneering work in waste-to-energy technologies and machine learning applications for waste management. His research has contributed to advancing environmental sustainability, earning him recognition in several academic journals and collaborative projects. Frimpong’s work in energy efficiency and green building materials has gained attention in both academic and industry circles, reinforcing his role as a leading researcher and innovator in the sustainable energy field. πŸŒπŸ”‹

πŸ“šPublication Top Notes

Techno-economic assessment of a utility-scale wind power plant in Ghana

Cited by: 37

Year: 2023

πŸ“° Published in: Energy Conversion and Management: X

A bird’s eye view of pumped hydro energy storage: A bibliometric analysis of global research trends and future directions

Cited by: 5

Year: 2024

πŸ“° Published in: Journal of Energy Storage

Determination of Optimum Tilt Angle for Rooftop Solar Photovoltaic System Installation for KikuKinderhaus in Kumasi

Cited by: 3

Year: 2020

πŸ“° Published in: International Journal of Energy and Environmental Sciences

Effects of Three Different Rates of Application of Cattle Dung on the Growth and Quality of Two Traditional Leafy Vegetables (Amaranthus Cruentus and Corchorus Olitorius)

Cited by: 2

Year: 2022

πŸ“° Published in: Journal of Food Technology

Life Cycle Embodied Carbon Evaluation of a Two-Bedroom House Construction in Ghana: A Comparison Between Stabilized Laterite and Sancrete Building

Year: 2025

πŸ“° Published in: Heliyon

Decision Support Systems for Waste-to-Energy Technologies: A Systematic Literature Review of Methods and Future Directions for Sustainable Implementation in Ghana

Year: 2024

πŸ“° Published in: OSF (Open Science Framework)

Sustainable Concrete Production Using Waste Glass Powder as A Partial Replacement of Fine Aggregate

Cited by: N/A

Year: 2024

πŸ“° Published in: Indonesian Journal of Construction Engineering and Sustainable Development

Alternative for Dirty Cooking Fuels in Ghana: Exploring the Potential of Cassava Ethanol

Year: 2022

πŸ“° Published in: Review of Energy Technologies and Policy Research

Life Cycle Embodied Carbon Evaluation of a Two-Bedroom House Construction in Ghana: A Comparison between Stabilized Laterite and Sancrete Building

Year: 2025

πŸ“° Available at SSRN

Integrated Optimization Framework for Hybrid Energy System for Water Supply Networks: MCDM and Homer Approach