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