Amr Fahil | Geothermal | Best Researcher Award

Best Researcher Award

                       Amr Fahil
Affiliation Tanta University
Country Egypt
Scopus ID 57219172795
Documents 14
Citations 219
h-index 7
Subject Area Geothermal
Event World Green Energy Awards
ORCID 0000-0003-1259-4267

Amr Fahil
Tanta University, Egypt

Amr Fahil is a researcher affiliated with Tanta University whose scholarly activities contribute to geothermal energy and sustainable energy technologies. His published research demonstrates continuing engagement with environmentally responsible energy solutions, resource optimization, and engineering applications that support clean energy development. His academic record, citation performance, and international research visibility provide a foundation for consideration within the World Green Energy Awards while reflecting measurable scientific productivity and ongoing professional development.[1]

Abstract

Amr Fahil has established a developing academic profile through research focused on geothermal energy, sustainable engineering, and environmentally responsible resource utilization. His publications demonstrate interest in improving renewable energy systems, enhancing engineering efficiency, and supporting scientific knowledge relevant to low-carbon development. With fourteen indexed publications, two hundred nineteen citations, and an h-index of seven, his work has attracted measurable scholarly attention while contributing to international discussions on clean energy innovation. These achievements indicate meaningful research productivity and support consideration for recognition through the World Green Energy Awards based on documented academic performance and research impact.[1]

Keywords

Geothermal Energy, Renewable Energy, Sustainable Engineering, Energy Efficiency, Clean Energy and World Green Energy Awards

Introduction

Geothermal research supports reliable renewable energy production by utilizing naturally occurring thermal resources while reducing dependence on fossil fuels. Researchers working in this discipline contribute to sustainable energy transitions through scientific investigation, engineering innovation, and resource optimization that encourage environmentally responsible development across regional and international energy systems.[2]

Research Profile

Amr Fahil maintains an indexed publication record within Scopus, reflecting participation in peer-reviewed scientific research associated with geothermal and renewable energy topics. His citation statistics and h-index demonstrate growing academic visibility while indicating that his published studies have received recognition from the international research community.[1]

Research Contributions

His research contributions emphasize scientific approaches that improve renewable energy utilization, engineering performance, and environmentally sustainable technologies. Through collaborative investigations and technical analysis, his publications support knowledge development related to geothermal systems while encouraging practical applications that align with long-term clean energy objectives.[3]

Publications

The available publication record includes fourteen indexed documents distributed across recognized scientific outlets. These publications demonstrate continuing scholarly engagement and provide evidence of research dissemination within internationally indexed literature, supporting transparency, reproducibility, and academic communication in renewable energy research.[1]

Research Impact

Citation indicators suggest that Amr Fahil’s research has attracted measurable scholarly attention from researchers working in related scientific disciplines. Such bibliometric evidence reflects academic influence while demonstrating that published findings have contributed to ongoing investigations involving renewable energy technologies and sustainable engineering practices.[3]

Award Suitability

Based on documented publication metrics, citation performance, and research specialization in geothermal energy, Amr Fahil demonstrates characteristics consistent with academic recognition within the World Green Energy Awards. Evaluation should remain based upon peer-reviewed achievements, scientific quality, documented impact, and continued contributions to renewable energy research.[4]

Conclusion

The available academic evidence indicates consistent scholarly activity within geothermal research and renewable energy engineering. His publication record, measurable citation impact, and continuing scientific engagement provide a credible basis for professional recognition while illustrating contributions to sustainable energy research and international academic collaboration.[5]

References

  1. Elsevier. (n.d.). Scopus author details: Amr Fahil, Author ID 57219172795. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=57219172795&eid=2-s2.0-85091572829
  2. Shebl, A., Abriha, D., Fahil, A. S., El-Dokouny, H. A., Elrasheed, A. A., & Csámer, Á. (2023). PRISMA hyperspectral data for lithological mapping in the Egyptian Eastern Desert: Evaluating the support vector machine, random forest, and XG boost machine learning algorithms. Ore Geology Reviews, 161, 105652. https://doi.org/10.1016/j.oregeorev.2023.105652
  3. Shebl, A., Abdellatif, M., Badawi, M., Dawoud, M., Fahil, A. S., & Csámer, Á. (2023). Towards better delineation of hydrothermal alterations via multi-sensor remote sensing and airborne geophysical data. Scientific Reports, 13, Article 7406.
    https://doi.org/10.1038/s41598-023-34657-5
  4. Ghoneim, E., Healey, C., Hemida, M., Shebl, A., & Fahil, A. (2023). Integration of geophysical and geospatial techniques to evaluate geothermal energy at Siwa Oasis, Western Desert, Egypt. Remote Sensing, 15(21), 5094.
    https://doi.org/10.3390/rs15215094
  5. Eid, M. H., Shebl, A., Eissa, M., Mohamed, E. A., Fahil, A. S., Ramadan, H. S., Abukhadra, M. R., El-Sherbeeny, A. M., Kovács, A., & Szűcs, P. (2024). Comprehensive approach integrating remote sensing, machine learning, and physicochemical parameters to detect hydrodynamic conditions and groundwater quality deterioration in non-rechargeable aquifer systems. Heliyon, 10(12), e32992. https://doi.org/10.1016/j.heliyon.2024.e32992

Mathurin Dongmo Wamba | Geothermal Energy Applications | Best Researcher Award

Dr. Mathurin Dongmo Wamba | Geothermal Energy Applications | Best Researcher Award

University of Bern/Institute of Geological Sciences | Switzerland

Dr. Mathurin Dongmo Wamba is a highly accomplished researcher in geophysics and seismology, with expertise in seismic tomography, earthquake wave analysis, and geodynamic processes. His academic journey and professional career reflect a commitment to advancing the understanding of Earth’s interior and environmental processes through innovative methods. He has conducted research at world-renowned institutions and actively participated in international collaborations that address both scientific challenges and real-world natural hazard concerns. His work spans from imaging deep mantle structures and mapping mantle plumes to investigating environmental hazards in lake systems. By integrating advanced data analysis, numerical modeling, and multidisciplinary tools, Dr. Wamba bridges the gap between fundamental geoscience and applied research. His scientific contributions have been recognized globally through publications in top-tier journals, prestigious fellowships, and invited conference presentations. He continues to build a strong reputation as a researcher dedicated to scientific excellence, interdisciplinary collaboration, and societal impact.

Professional Profiles

Google Scholar | Scopus Profile | ORCID Profile 

Education

Dr. Wamba’s educational journey demonstrates both depth and diversity in scientific training. He obtained his Ph.D. in Geophysics and Seismology from a leading institution, focusing on seismic tomography and Earth imaging under the supervision of globally recognized experts in the field. His doctoral studies involved advanced modeling techniques, waveform inversion, and mantle structure analysis, laying a solid foundation for his research career. Prior to his doctoral work, he completed a master’s degree in geophysics, gaining specialized training in earthquake processes, seismic wave propagation, and geodynamic modeling. He also pursued undergraduate and graduate studies in physics, equipping him with strong analytical and mathematical skills essential for seismic research. Complementing his formal education, he has undertaken specialized workshops, field training, and international internships, which exposed him to diverse geophysical methods, from airborne surveys to marine seismology. This strong academic preparation has allowed him to combine theoretical knowledge with practical applications in Earth sciences.

Experience

Dr. Wamba has accumulated extensive professional experience in research, teaching, and international collaboration. He has served as a postdoctoral researcher and lecturer at globally recognized universities, contributing to cutting-edge studies in seismic imaging and environmental hazard monitoring. His work has included leading seismic tomography projects that investigated mantle plumes, oceanic hotspots, and Earth’s deep interior using global datasets and innovative modeling approaches. He has also conducted research on environmental hazards, focusing on lake processes such as submarine landslides and methane gas release, employing seismological and environmental monitoring tools. His experience extends to marine and airborne geophysical surveys, enhancing his multidisciplinary expertise. Beyond research, he has contributed to teaching and mentoring students in advanced geoscience and programming courses, equipping future scientists with practical and computational skills. His ability to collaborate with teams across Europe, Africa, and North America highlights his international experience and commitment to fostering global scientific networks.

Research Interest

Dr. Wamba’s research interests lie at the intersection of seismology, geophysics, and environmental monitoring. A central theme of his work is the use of seismic tomography to image Earth’s deep interior, particularly mantle plumes and geodynamic processes. He is deeply interested in understanding the physical mechanisms that drive mantle convection, plume conduits, and hotspot activity, as these processes shape the planet’s long-term evolution. Another important focus of his research is the study of natural hazards using seismological and environmental observations. By integrating seismic data with hydrological and meteorological measurements, he investigates processes such as slope failures, gas emissions, and underwater landslides in lake environments. He is also interested in the application of machine learning and high-performance computing in seismic data analysis, advancing the accuracy and efficiency of Earth imaging techniques. His interdisciplinary approach reflects a strong commitment to both advancing fundamental science and addressing societal challenges.

Awards and Honors

Dr. Wamba’s research excellence has been recognized through several prestigious awards, fellowships, and grants. He has been the recipient of a highly competitive postdoctoral fellowship at a leading U.S. university, a recognition awarded to outstanding early-career researchers demonstrating leadership and innovation in their fields. His doctoral and master’s studies were also supported by major fellowships and scholarships from leading European institutions, reflecting the international value placed on his research potential. In addition to long-term fellowships, he has received numerous competitive travel grants, enabling him to present his research at internationally renowned conferences and workshops in geophysics, seismology, and Earth sciences. These opportunities have enhanced his visibility within the global scientific community and allowed him to build international collaborations. Such consistent recognition highlights his scholarly excellence, global outlook, and dedication to advancing research in geophysics and seismology while contributing to the wider scientific and academic community.

Research Skills

Dr. Wamba possesses an impressive range of research skills that combine computational expertise, data analysis, and field applications. He is highly proficient in scientific programming, with experience in Python, MATLAB, C, Fortran, and Bash, enabling him to develop and implement advanced models for seismic imaging and geophysical data processing. His skills in statistical analysis, machine learning, and data visualization allow him to extract meaningful insights from large and complex datasets. He has expertise in tomographic interpretation, seismic anisotropy mapping, and numerical simulations, contributing to a deeper understanding of Earth’s interior and geodynamic processes. Beyond computational methods, he has hands-on experience in deploying and maintaining seismic stations, conducting marine and airborne surveys, and processing environmental data from diverse instruments such as ocean-bottom seismometers and current profilers. This blend of technical, analytical, and field-based skills positions him as a versatile and innovative researcher capable of tackling complex geoscience challenges.

Publication Top Notes

Title: Imaging deep-mantle plumbing beneath La Réunion and Comores hot spots: Vertical plume conduits and horizontal ponding zones
Authors: M. Dongmo Wamba, J.P. Montagner, B. Romanowicz
Year: 2023
Citations: 49

Title:Multi‐mode waveform tomography of the Indian Ocean upper and mid‐mantle around the Réunion hotspot
Authors: M.D. Wamba, J.P. Montagner, B. Romanowicz, G. Barruol
Year: 2021
Citations: 26

Title: Water Effects on the First‐Order Transition in a Model of Earthquakes
Authors: M.W. Dongmo, L.Y. Kagho, F.B. Pelap, G.B. Tanekou, Y.L. Makenne, …
Year: 2014
Citations: 13

Title: Dynamics of an earthquake under magma thrust strength
Authors: L.Y. Kagho, M.W. Dongmo, F.B. Pelap
Year: 2015
Citations: 12

Title: Direction effects of the pulling force on the first-order phase transition in a one-block model for earthquakes
Authors: F.B. Pelap, A. Fomethe, M.W. Dongmo, L.Y. Kagho, G.B. Tanekou, …
Year: 2014
Citations: 10

Title: Dynamics of modulated waves in the spring-block model of earthquake with time delay
Authors: I.A. Mofor, L.C. Tasse, G.B. Tanekou, M.D. Wamba, R. Kengne, …
Year: 2023
Citations: 5

Title: Data-space cross-validation of mantle structure in global tomographic models underneath the Pacific Ocean
Authors: J.C.E.I. Mathurin D. Wamba, Frederik J. Simons
Year: 2025
Citations: 2

Title: On the heart rhythm analysis using a nonlinear dynamics perspective: Analytical study and electronic simulation
Authors: R.F. Fonkou, R. Kengne, M.D. Wamba, H.C.F. Kamgang, P.K. Talla
Year: 2024
Citations: 1

Conclusion

Dr. Mathurin Dongmo Wamba is an accomplished geophysicist whose research has made significant contributions to understanding Earth’s structure, natural hazards, and energy resources. His strong academic background, international collaborations, impactful publications, and dedication to mentoring future scientists highlight his suitability for the Best Researcher Award. Beyond advancing scientific knowledge, his work contributes to societal resilience against natural disasters and supports sustainable resource management. With his proven expertise and growing leadership, Dr. Wamba is not only deserving of this recognition but also well-positioned to shape the future of seismology and interdisciplinary geoscience research.