Associate Professor at Yarmouk University, Jordan
Dr. Ayman A. Al-Quraan, born in Abu Dhabi, UAE in 1986, is an Associate Professor in the Department of Electrical Power and Energy at Yarmouk University in Irbid, Jordan. He earned his Ph.D. in Electrical and Computer Engineering from Concordia University, Montreal, in 2016. After completing his doctoral studies, he undertook a brief postdoctoral position at Concordia University before joining Yarmouk University in 2017. He is the founder of the Power and Energy Research Lab at Yarmouk University and has significantly contributed to research in the fields of power systems and renewable energy. His research interests focus on optimizing hybrid renewable energy systems (HRES) and developing capacity determination and energy management strategies. Dr. Al-Quraan has served in various editorial roles for top-tier international journals and has received several research grants and funding for his projects. He is also recognized for his extensive academic contributions, having published several articles in well-respected journals and conferences. His work in renewable energy optimization and system modeling reflects his commitment to addressing global energy challenges through research and innovation.
Professional Profile
Education:
Dr. Ayman A. Al-Quraan completed his academic journey with a Ph.D. in Electrical and Computer Engineering from Concordia University in Montreal, Canada, in 2016. Prior to this, he obtained his Master’s degree in Electrical Power Engineering in 2011 and his Bachelor’s degree in Electrical Power Engineering in 2009, both from Yarmouk University, Jordan. His academic pursuits reflect a strong foundation in power engineering, with particular emphasis on energy systems and optimization. During his doctoral studies, Dr. Al-Quraan conducted advanced research in the field of urban wind energy estimation, contributing to the understanding of renewable energy potential in urban environments. His graduate studies at Yarmouk University were marked by excellence, as evidenced by scholarships and awards, including the King Abdullah Fund Grant during his undergraduate years. The combination of his diverse educational background and solid academic performance has positioned Dr. Al-Quraan as a leading figure in the power and energy sector, fostering significant contributions to both research and teaching. His doctoral research, in particular, allowed him to engage deeply with renewable energy technologies, a key area in his ongoing work at Yarmouk University.
Professional Experience:
Dr. Ayman A. Al-Quraan has extensive professional experience in both academic and industry settings. After completing his doctoral studies at Concordia University, he joined Yarmouk University in 2017, where he currently serves as an Associate Professor in the Department of Electrical Power and Energy. He has held various roles at Yarmouk University, including Assistant Professor and Research Assistant, and has contributed to the development of the university’s Power and Energy Research Lab. Additionally, he has participated as a Principal Investigator in several research projects, such as those focused on optimizing Hybrid Renewable Energy Systems (HRES), receiving funding from Yarmouk University for his innovative work. Dr. Al-Quraan’s professional background also includes industry experience at the National Electrical Power Company (NEPCO) in Jordan, where he worked as an Electrical Substation Engineer from 2008 to 2009. His industry experience complements his academic roles, allowing him to bridge the gap between theoretical research and practical application. Furthermore, Dr. Al-Quraan’s role as an editor and guest editor for several international journals, including those in the renewable energy field, further demonstrates his significant impact on the academic and professional community.
Research Interests:
Dr. Ayman A. Al-Quraan’s research interests lie at the intersection of renewable energy systems, power optimization, and energy management strategies. His work primarily focuses on the development and optimization of Hybrid Renewable Energy Systems (HRES), specifically addressing the challenges of integrating multiple energy sources, such as solar and wind, into a cohesive system for efficient power generation. He has conducted extensive research on predictive control and capacity determination strategies for renewable energy systems, aimed at maximizing energy yield and ensuring sustainability in both connected and isolated systems. Additionally, Dr. Al-Quraan is interested in the application of optimization techniques to solve complex energy management problems, such as those found in off-grid systems and urban energy solutions. His interdisciplinary approach combines electrical engineering, energy optimization, and control systems. As a Principal Investigator (PI) for a project related to n-layers optimization for HRES, Dr. Al-Quraan continues to push the boundaries of research in energy systems. His expertise in modeling and control has led to significant contributions to the understanding and development of efficient energy solutions that are critical to addressing global energy demands.
Research Skills:
Dr. Ayman A. Al-Quraan possesses a robust skill set that allows him to lead cutting-edge research in the fields of power engineering and renewable energy systems. His skills in modeling and optimization techniques have been critical in his work on Hybrid Renewable Energy Systems (HRES), where he applies advanced mathematical models to optimize energy production and consumption. Dr. Al-Quraan is proficient in the use of predictive control systems, which is central to his research on energy management strategies for renewable systems. He is also skilled in wind and solar energy estimation techniques, utilizing tools such as wind tunnels and data collection for urban energy analysis. As an academic editor and reviewer for several international journals, Dr. Al-Quraan demonstrates a keen eye for quality research and contributes his expertise to the scientific community. His ability to collaborate across disciplines, along with his strong knowledge of electrical power systems and renewable energy technologies, further enhances his research capabilities. Dr. Al-Quraan’s technical skills are complemented by his leadership in securing research funding, which has enabled him to spearhead innovative projects in energy optimization.
Awards and Honors:
Dr. Ayman A. Al-Quraan’s academic journey has been marked by numerous awards and honors that reflect his dedication and excellence in research and education. As a graduate student, he was awarded the Graduate Research Assistantship at Concordia University from 2012 to 2016, recognizing his outstanding research capabilities during his Ph.D. studies. He also received a Ph.D. scholarship from Yarmouk University, which supported his doctoral research in renewable energy. His undergraduate and graduate studies were funded by prestigious scholarships, including the King Abdullah Fund Grant, which allowed him to pursue his education with distinction. Dr. Al-Quraan was ranked first in both his Bachelor’s and Master’s degrees in Electrical Power Engineering at Yarmouk University, which is a testament to his academic excellence. These awards highlight Dr. Al-Quraan’s strong commitment to advancing the field of electrical power and energy systems, especially in the areas of renewable energy optimization and energy management strategies. His accomplishments have earned him recognition both locally and internationally, making him a prominent figure in the academic and professional energy sectors.
Conclusion:
Dr. Ayman A. Al-Quraan is an exemplary candidate for the Research for Best Researcher Award due to his profound contributions to the fields of electrical power engineering and renewable energy systems. His expertise in optimizing hybrid energy systems, coupled with his leadership in establishing research labs and securing funding, positions him as a leader in his field. Dr. Al-Quraan’s involvement in prestigious editorial roles and his publication record in top-tier journals further attests to his influence in the academic community. His work on energy management strategies, particularly in the context of hybrid renewable energy systems, has significant implications for sustainable energy solutions. While there are opportunities for further industry collaboration and public outreach, Dr. Al-Quraan’s research continues to drive innovation in energy systems, contributing to the global pursuit of sustainability. With a strong foundation in both academic research and practical experience, he is highly deserving of this prestigious award.
Publication Top Notes
- Title: Urban wind energy: Some views on potential and challenges
- Authors: T. Stathopoulos, H. Alrawashdeh, A. Al-Quraan, B. Blocken, A. Dilimulati, …
- Journal: Journal of Wind Engineering and Industrial Aerodynamics
- Volume: 179
- Pages: 146-157
- Citations: 229
- Year: 2018
- Title: Comparison of wind tunnel and on-site measurements for urban wind energy estimation of potential yield
- Authors: A. Al-Quraan, T. Stathopoulos, P. Pillay
- Journal: Journal of Wind Engineering and Industrial Aerodynamics
- Volume: 158
- Pages: 1-10
- Citations: 80
- Year: 2016
- Title: Modelling, design and control of a standalone hybrid PV-wind micro-grid system
- Authors: A. Al-Quraan, M. Al-Qaisi
- Journal: Energies
- Volume: 14 (16)
- Article Number: 4849
- Citations: 61
- Year: 2021
- Title: Active and reactive power control for wind turbines based DFIG using LQR controller with optimal Gain‐scheduling
- Authors: A. Radaideh, M. Bodoor, A. Al-Quraan
- Journal: Journal of Electrical and Computer Engineering
- Year: 2021
- Article Number: 1218236
- Citations: 38
- Title: Assessment of wind energy resources in Jordan using different optimization techniques
- Authors: B. Al-Mhairat, A. Al-Quraan
- Journal: Processes
- Volume: 10 (1)
- Article Number: 105
- Citations: 29
- Year: 2022
- Title: Optimal coordination of wind power and pumped hydro energy storage
- Authors: H. M. K. Al-Masri, A. Al-Quraan, A. AbuElrub, M. Ehsani
- Journal: Energies
- Volume: 12 (22)
- Article Number: 4387
- Citations: 25
- Year: 2019
- Title: Rolling horizon control architecture for distributed agents of thermostatically controlled loads enabling long-term grid-level ancillary services
- Authors: A. Radaideh, A. Al-Quraan, H. Al-Masri, Z. Albataineh
- Journal: International Journal of Electrical Power & Energy Systems
- Volume: 127
- Article Number: 106630
- Citations: 22
- Year: 2021
- Title: Optimal prediction of wind energy resources based on WOA—A case study in Jordan
- Authors: A. Al-Quraan, B. Al-Mhairat, A. M. A. Malkawi, A. Radaideh, H. M. K. Al-Masri
- Journal: Sustainability
- Volume: 15 (5)
- Article Number: 3927
- Citations: 20
- Year: 2023
- Title: Minimizing the utilized area of PV systems by generating the optimal inter-row spacing factor
- Authors: A. Al-Quraan, M. Al-Mahmodi, K. Alzaareer, C. El-Bayeh, U. Eicker
- Journal: Sustainability
- Volume: 14 (10)
- Article Number: 6077
- Citations: 20
- Year: 2022
- Title: Machine learning classification and prediction of wind estimation using artificial intelligence techniques and normal PDF
- Authors: H. H. Darwish, A. Al-Quraan
- Journal: Sustainability
- Volume: 15 (4)
- Article Number: 3270
- Citations: 19
- Year: 2023