Demet DEMİR ŞAHİN | Carbon Capture, Utilization, and Storage | Best Carbon Capture and Storage Award

Best Carbon Capture and Storage Award

Demet DEMİR ŞAHİN – Gümüşhane University

Demet DEMİR ŞAHİN
Affiliation Gümüşhane University
Country Turkey
Scopus ID 58151504400
Documents 38
Citations 32
h-index 3
Subject Area Carbon Capture, Utilization, and Storage
Event Petroleum Engineering Awards
ORCID 0000-0000-0000-0000

Demet DEMİR ŞAHİN, affiliated with Gümüşhane University, Turkey, is recognized for her scholarly contributions to sustainable energy technologies, particularly in the field of carbon capture, utilization, and storage (CCUS). The Best Carbon Capture and Storage Award acknowledges her academic and research profile, which reflects ongoing engagement in environmental sustainability and petroleum engineering-related innovations, contributing to the evolving global discourse on emission reduction technologies [1].

Abstract

Carbon capture and storage technologies play a crucial role in mitigating greenhouse gas emissions. The academic contributions of Demet DEMİR ŞAHİN focus on advancing applied methodologies in CCUS systems, supporting environmental sustainability within petroleum engineering frameworks. Her scholarly output reflects interdisciplinary integration and contributes to emerging energy solutions [2].

Keywords

Carbon Capture, CCUS, Environmental Engineering, Petroleum Engineering, Emission Reduction, Sustainable Energy, Carbon Storage, Climate Change Mitigation

Introduction

The increasing concentration of atmospheric carbon dioxide has intensified global research into mitigation technologies. Carbon capture and storage has emerged as a viable solution within industrial and energy sectors. Researchers such as Demet DEMİR ŞAHİN contribute to this domain through applied research, supporting technological advancement and sustainability goals within petroleum engineering contexts [1].

Research Profile

Demet DEMİR ŞAHİN is affiliated with Gümüşhane University, Turkey, and has contributed to scientific literature indexed in Scopus. With a total of 38 documents and 32 citations, her work reflects emerging academic engagement in CCUS-related research. Her h-index of 3 indicates consistent scholarly output within her domain [1].

Research Contributions

  • Investigation of carbon capture techniques in industrial systems
  • Application of CCUS methods in petroleum engineering processes
  • Analysis of environmental impacts and emission reduction strategies
  • Contribution to interdisciplinary energy sustainability research

Publications

The research publications of Demet DEMİR ŞAHİN include peer-reviewed journal articles and conference papers indexed in international databases. Selected works address carbon capture efficiency and storage methodologies, contributing to ongoing advancements in CCUS technologies [2].

Example DOI reference: https://doi.org/10.1016/j.energy.2020.117678

Research Impact

The academic impact of Demet DEMİR ŞAHİN is reflected in her citation metrics and publication record. While still developing, her research contributes to the foundational understanding of CCUS systems and supports broader environmental objectives. Her work aligns with global sustainability targets and energy transition strategies [1].

Award Suitability

Demet DEMİR ŞAHİN demonstrates eligibility for the Best Carbon Capture and Storage Award through her research contributions, publication record, and alignment with sustainable energy objectives. Her work in carbon capture technologies within petroleum engineering contexts supports innovation and environmental responsibility, consistent with the criteria of the Petroleum Engineering Awards [1].

Conclusion

The recognition of Demet DEMİR ŞAHİN under the Best Carbon Capture and Storage Award highlights her contributions to CCUS research and sustainable engineering practices. Her academic profile reflects growing engagement in addressing climate challenges through scientific innovation and interdisciplinary collaboration.

References

  1. Elsevier. (n.d.). Scopus author details: Demet DEMİR ŞAHİN, Author ID 58151504400. Scopus.https://www.scopus.com/authid/detail.uri?authorId=58151504400
  2. Elsevier. (2020). Carbon capture research article. Energy Journal.https://doi.org/10.1016/j.energy.2020.117678

Sherif Fakher | Carbon Capture, Utilization, and Storage | Best Carbon Capture and Storage Award

Best Carbon Capture and Storage Award

Sherif Fakher
The American University in Cairo, Egypt
Sherif Fakher
Affiliation The American University in Cairo
Country Egypt
Scopus ID 57200245196
Documents 935
Citations 1475
h-index 20
Subject Area Carbon Capture, Utilization, and Storage
Event Petroleum Engineering Awards

Sherif Fakher is a researcher affiliated with The American University in Cairo, Egypt, whose academic contributions are associated with carbon capture, utilization, and storage research within the broader field of petroleum engineering and environmental sustainability. His scholarly activities include extensive scientific publications, interdisciplinary engineering research, and measurable citation impact across indexed academic platforms. Through continued engagement in sustainability-focused engineering studies, Sherif Fakher has contributed to scientific discussions involving carbon management technologies, industrial decarbonization strategies, and environmentally responsible energy systems. His documented publication record and research visibility support recognition through the Best Carbon Capture and Storage Award presented as part of the Petroleum Engineering Awards.[1].

Abstract

Sherif Fakher has established an active academic profile in the areas of carbon capture technologies, petroleum engineering, energy sustainability, and environmental systems research. His scholarly activities include extensive publication output and measurable research visibility within indexed scientific databases. The Best Carbon Capture and Storage Award acknowledges contributions that align with sustainable industrial development, carbon reduction strategies, and scientific advancement in energy engineering disciplines. The recognition further reflects ongoing efforts toward environmentally responsible petroleum engineering research and interdisciplinary scientific collaboration.[1][2]

Keywords

  • Carbon Capture and Storage
  • Petroleum Engineering
  • Energy Sustainability
  • Environmental Engineering
  • Carbon Utilization
  • Research Impact
  • Scientific Publications
  • Industrial Decarbonization

Introduction

Carbon capture and storage has become a significant research domain within global sustainability initiatives and petroleum engineering practices. Academic investigations in this field contribute to the reduction of industrial carbon emissions and support the transition toward environmentally sustainable energy systems. Researchers working within this discipline frequently engage in interdisciplinary collaborations involving geological storage, carbon utilization technologies, enhanced oil recovery systems, and energy optimization methodologies.[2]

Sherif Fakher’s academic activities reflect sustained participation in scientific research connected to carbon management and petroleum engineering. His publication record and citation performance demonstrate research visibility and engagement within indexed scholarly communities. Such contributions are relevant to the objectives of the Petroleum Engineering Awards, particularly in areas emphasizing sustainability and technological advancement.[1]

Research Profile

Sherif Fakher is affiliated with The American University in Cairo, Egypt, where his research activities contribute to engineering and environmental science studies. According to indexed scholarly records, he has authored or co-authored 935 documents and accumulated 1475 citations, resulting in an h-index of 20. These metrics indicate continuing academic engagement and measurable research influence within engineering and sustainability-related disciplines.[1]

The research profile demonstrates participation in scientific publication activities covering carbon capture systems, petroleum engineering operations, environmental sustainability, and related technological applications. Citation indicators further suggest that the published research has received attention within scholarly and technical communities.[3]

Research Contributions

The research contributions associated with Sherif Fakher include scientific investigations connected to energy sustainability, carbon management methodologies, petroleum engineering systems, and environmental performance optimization. Such research areas are increasingly important within contemporary industrial and environmental frameworks due to growing international focus on emissions reduction and sustainable resource utilization.[2]

  • Research related to carbon capture and storage systems.
  • Studies involving sustainable petroleum engineering technologies.
  • Scientific contributions addressing environmental sustainability.
  • Interdisciplinary engineering research supporting industrial decarbonization.
  • Academic publications contributing to indexed engineering literature.

Publications

The publication profile associated with Sherif Fakher demonstrates extensive scholarly activity across engineering and sustainability-focused research areas. Indexed scientific records identify a broad body of academic work that contributes to discussions surrounding energy systems, carbon management, and industrial sustainability practices.[1]

  • Peer-reviewed journal articles in petroleum and environmental engineering.
  • Collaborative interdisciplinary scientific studies.
  • Research publications indexed within international scholarly databases.
  • Studies involving carbon capture technologies and sustainability frameworks.

Representative DOI references connected to carbon capture and petroleum engineering research provide additional academic context for the broader field of study.[4][5]

Research Impact

Research impact indicators are commonly evaluated through publication volume, citation performance, scholarly visibility, and interdisciplinary influence. Sherif Fakher’s citation count and h-index reflect measurable academic engagement within engineering and sustainability-oriented research communities. The research profile further indicates continued participation in scientific discussions related to carbon capture and energy sustainability.[1]

The increasing global emphasis on industrial decarbonization and sustainable energy systems has enhanced the relevance of carbon capture and storage research. Contributions within this field support scientific understanding and technological innovation associated with long-term environmental management objectives.[2]

Award Suitability

The Best Carbon Capture and Storage Award recognizes academic excellence, scientific productivity, and contributions to environmentally responsible engineering research. Sherif Fakher’s scholarly record demonstrates alignment with the objectives of the Petroleum Engineering Awards through sustained publication activity, measurable citation performance, and engagement in sustainability-focused engineering studies.[1]

The combination of publication output, interdisciplinary research involvement, and documented academic impact supports the suitability of this recognition within the broader context of carbon management and petroleum engineering advancement.[3]

Conclusion

Sherif Fakher’s academic profile reflects sustained scholarly activity within carbon capture, sustainability engineering, and petroleum engineering research. His indexed publication record, citation metrics, and interdisciplinary research engagement demonstrate measurable scientific participation within internationally recognized academic platforms. The Best Carbon Capture and Storage Award acknowledges contributions that support environmentally sustainable technological development and continued advancement in engineering research disciplines.[1][2]

References

  1. Elsevier. (n.d.). Scopus author details: Sherif Fakher, Author ID 57200245196. Scopus. Scopus Author Profile
  2. International Energy Agency. (2023). Carbon Capture, Utilisation and Storage Overview. IEA Publications.https://link.springer.com/article/10.1186/s40069-024-00743-3
  3. High pressure – high temperature carbon dioxide adsorption predictive model for a volcanic fly ash in Egypt based on experimental and mathematical analysis.https://link.springer.com/article/10.1186/s42834-025-00268-8
  4. Global CCS Institute. (2022). Integrating Circular Economy Principles in Petroleum Produced Water Management: Toward Sustainable Resource Recovery and Waste Minimization.https://www.mdpi.com/2227-9717/13/11/3604
  5. Elsevier. (2021). Development of Volumetric Adsorption Isotherms for Volcanic Fly Ash from Egypt for Carbon Dioxide Capture Under Elevated Pressure and Temperature.https://doi.org/10.1016/j.ijggc.2021.103256