Aleksandra Jezierska-Thole | Hydropower | Best Academic Researcher Award

Best Academic Researcher Award

Aleksandra Jezierska-Thole
Kazimierz Wielki University, Poland

    Aleksandra Jezierska-Thole
Affiliation Kazimierz Wielki University
Country Poland
Scopus ID 25958079100
Documents 18
Citations 242
h-index 10
Subject Area Hydropower
Event World Green Energy Awards
ORCID 0000-0002-7607-9531

Aleksandra Jezierska-Thole is an academic affiliated with Kazimierz Wielki University, Poland, whose scholarly activities contribute to hydropower and sustainable regional development research. Her publication record, citation performance, and interdisciplinary perspective demonstrate continued engagement with environmental and renewable energy studies. These achievements support recognition within international academic award programs dedicated to advancing scientific excellence and sustainable energy innovation.[1]

Abstract

Aleksandra Jezierska-Thole has established a recognized academic profile through research addressing hydropower, environmental sustainability, regional development, and resource management. Her scientific publications demonstrate an interdisciplinary approach that integrates environmental science with sustainable energy planning and socio-economic analysis. With 18 indexed publications, 242 citations, and an h-index of 10, her work reflects measurable scholarly influence within her research community. The combination of research productivity, citation performance, and commitment to sustainable development aligns with the objectives of the World Green Energy Awards, highlighting meaningful contributions to advancing renewable energy knowledge and environmentally responsible development.[1]

Keywords

Hydropower, Renewable Energy, Sustainable Development, Water Resources, Environmental Planning, Regional Development, Energy Transition, Green Infrastructure, Resource Management, World Green Energy Awards.

Introduction

Hydropower research plays an important role in supporting renewable electricity generation while promoting sustainable environmental management and regional resilience. Academic investigations in this discipline contribute evidence that assists policymakers, engineers, and environmental planners in developing balanced energy strategies for long-term sustainability.[2]

Research Profile

Aleksandra Jezierska-Thole is affiliated with Kazimierz Wielki University in Poland and has developed research interests focused on hydropower, environmental management, and sustainable regional development. Her Scopus profile records 18 indexed publications, 242 citations, and an h-index of 10, reflecting consistent academic engagement.[1]

Research Contributions

Her research contributes to understanding sustainable water resource utilization, renewable energy integration, environmental policy, and regional planning. These studies support evidence-based approaches that encourage efficient hydropower development while considering ecological conservation and socio-economic sustainability.[2]

Publications

The research portfolio includes peer-reviewed journal articles examining renewable energy, environmental sustainability, and regional development. Publications indexed by Scopus demonstrate continuing scholarly productivity and provide scientific evidence supporting sustainable resource management and hydropower planning.[1]

Research Impact

Citation indicators suggest that the published research has received recognition within the academic community. The documented citation count and h-index illustrate measurable scholarly influence and indicate that the research has contributed to ongoing discussions related to sustainable energy and environmental development.[3]

Award Suitability

The demonstrated publication record, citation performance, interdisciplinary research interests, and commitment to renewable energy knowledge make Aleksandra Jezierska-Thole an appropriate candidate for recognition through the Best Academic Researcher Award presented by the World Green Energy Awards.[4]

Conclusion

Aleksandra Jezierska-Thole’s academic achievements demonstrate sustained contributions to hydropower and sustainable development research. Her scholarly productivity and research impact support continued recognition within international scientific communities dedicated to advancing renewable energy and environmental sustainability.[5]

External Links

References

  1. Elsevier. (n.d.). Scopus author details: Aleksandra Jezierska-Thöle, Author ID 25958079100. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=25958079100
  2. World Green Energy Awards. (n.d.).
    https://greenenergyaward.com/
  3. Jelińska, A., Obodovskyi, O., Jezierska-Thöle, A., & Bombicki, K. (2026). Hydropower potential assessment under energy transition: The case of the Radunia River (Northern Poland). Energies, 19(14), Article 3248.
    https://doi.org/10.3390/en19143248
  4. Kozłowska-Adamczak, M., Jezierska-Thöle, A., & Essing-Jelonkiewicz, P. (2025). Application of remote sensing for the evaluation of the forest ecosystem functions and tourism services. Sustainability, 17(5), Article 2060.
    https://doi.org/10.3390/su17052060
  5. Jezierska-Thöle, A., Gonia, A., Podgórski, Z., & Gwiaździńska-Goraj, M. (2025). Wine tourism as a tool for sustainable development of the cultural landscape—A case study of Douro wine region in Portugal. Sustainability, 17(4), Article 1494.
    https://doi.org/10.3390/su17041494

 

Ming Fan | Hydropower | Best Researcher Award

Dr. Ming Fan | Hydropower | Best Researcher Award

Research Scientist | Oak Ridge National Laboratory | United States 

Dr. Ming Fan is a Research Scientist at Oak Ridge National Laboratory (ORNL), where he leads cutting-edge research at the intersection of computational science, machine learning, and sustainable energy systems. He earned his Ph.D. in Geoenergy Engineering from Virginia Tech, after completing an M.S. in Petroleum and Natural Gas Engineering at West Virginia University and a B.S. in Resources Exploration Engineering at the China University of Mining and Technology. Professionally, Dr. Fan has developed an impressive portfolio of research spanning machine learning, deep learning, explainable AI, uncertainty quantification, and energy system modeling, with applications in climate prediction, water resource management, CO₂ and hydrogen storage, and geothermal energy. His expertise lies in advancing both theory and practical applications, integrating data-driven models with large-scale simulations to address critical challenges in energy transition and climate science. His research skills include high-performance computing, uncertainty-aware modeling, advanced geoscientific simulations, and AI-enabled decision support, which he has demonstrated in projects funded by the U.S. Department of Energy. Dr. Fan’s professional contributions extend beyond research through his roles as an active reviewer for leading journals, guest editor, NSF proposal panelist, and session organizer at major conferences such as AGU, ICDM, NeurIPS, and ICLR. His achievements have earned him prestigious recognitions, including being a Finalist for the ACM Gordon Bell Climate Modeling Prize and receiving the HPCwire Top Supercomputing Achievement Award. These awards highlight his ability to push the boundaries of computational geoscience while making tangible impacts on real-world energy and climate challenges. Dr. Fan’s academic impact is further reflected in his growing recognition with 640 citations, 38 documents, and an h-index of 15, demonstrating his influential role in advancing computational science, energy systems modeling, and sustainable resource management.

Profiles: Google Scholar | Scopus | ORCID | ResearchGate | LinkedIn

Featured Publications

1. Fan, M., McClure, J., Han, Y., Li, Z., & Chen, C. (2018). Interaction between proppant compaction and single-/multiphase flows in a hydraulic fracture. SPE Journal, 23(4), 1290–1303. Cited by: 67

2. Wang, H., Dalton, L., Fan, M., Guo, R., McClure, J., Crandall, D., & Chen, C. (2022). Deep-learning-based workflow for boundary and small target segmentation in digital rock images using UNet++ and IK-EBM. Journal of Petroleum Science and Engineering, 215, 110596. Cited by: 61

3. Guo, R., Dalton, L. E., Fan, M., McClure, J., Zeng, L., Crandall, D., & Chen, C. (2020). The role of the spatial heterogeneity and correlation length of surface wettability on two-phase flow in a CO₂-water-rock system. Advances in Water Resources, 146, 103763. Cited by: 60

4. Fan, M., McClure, J., Han, Y., Ripepi, N., Westman, E., Gu, M., & Chen, C. (2019). Using an experiment/simulation-integrated approach to investigate fracture-conductivity evolution and non-Darcy flow in a proppant-supported hydraulic fracture. SPE Journal, 24(4), 1912–1928. Cited by: 57

5. Fan, M., Li, Z., Han, Y., Teng, Y., & Chen, C. (2021). Experimental and numerical investigations of the role of proppant embedment on fracture conductivity in narrow fractures (includes associated errata). SPE Journal, 26(1), 324–341. Cited by: 50