Soukaina Hrifech | Materials Science | Best Researcher Award

🌟Dr. Soukaina Hrifech, Materials Science, Best Researcher Award🏆

  • Doctorate at green energy park, Morocco

Soukaina Hrifech is a 31-year-old physicist specializing in energy, currently residing in Sale, Morocco. She holds a Doctorate in Physics from the University Abdelmalek Essaadi, with a focus on energy, and has collaborated extensively with the Green Energy Park Research Institute in Benguérir. With a background in renewable energy and environmental engineering, Soukaina has a passion for researching materials and systems for thermal energy storage, particularly for use in small concentrated solar power plants.

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Scopus Profile

Soukaina Hrifech has established herself as a prolific author in the field of thermal energy storage, with several notable publications to her name. Her research contributions have been recognized internationally, and her work has been cited by peers and researchers in related fields. Through her publications, Soukaina has demonstrated expertise in experimental validation, material characterization, and modeling of thermal energy storage systems.

Citations: Soukaina Hrifech has received 20 citations across 18 documents.

Documents: She has authored 5 documents.

h-index: Her h-index is 3.

Education

Soukaina Hrifech’s academic journey began with a Bachelor’s degree in Renewable Energy and Environment from the University Ibn Tofail, followed by a Master’s degree in Energy Engineering and Environment from the University Abdelmalek Essaadi. She then pursued a Doctorate in Physics, specializing in energy, where she conducted groundbreaking research on the characterization of natural rocks for thermal energy storage applications.

Research Focus

Soukaina’s research primarily focuses on the development and characterization of materials for thermal energy storage systems, particularly for use in small concentrated solar power plants. Her work involves experimental validation, material characterization, and modeling of thermal storage systems aimed at enhancing the efficiency and sustainability of renewable energy technologies.

Professional Journey

Soukaina Hrifech’s professional journey has been closely tied to her academic pursuits. She began her career with internships and research positions at organizations such as Lafarge Ciments and the National Office of Electricity in Morocco. Subsequently, she joined the Green Energy Park Research Institute, where she progressed from a doctoral researcher to a postdoctoral researcher and eventually assumed the role of Laboratory Manager for Storage Materials.

Honors & Awards

Throughout her academic and professional career, Soukaina has received several honors and awards for her outstanding contributions to the field of thermal energy storage. Her doctoral thesis was awarded the highest distinction by the examining committee, and she has been recognized for her research excellence through presentations at international conferences and symposiums.

Publications Noted & Contributions

Soukaina Hrifech has made significant contributions to the field of thermal energy storage through her publications in renowned scientific journals and conference proceedings. Her research on the experimental validation and characterization of natural rocks for thermal storage applications has garnered attention for its innovative approach and practical implications for renewable energy technologies.

Article: Experimental assessment of quartz-rich rocks as storage materials for medium and high temperatures air packed bed system

  • Authors: Hrifech, S.; Bennouna, E.G.; Faik, A.; Mouguina, E.M.; Mimet, A.
  • Journal: Journal of Energy Storage, 2023, 70, 107849
  • Abstract: (The abstract is not available in this source.)
  • Related documents: This article has 1 citation.

 

Article: Characterization of natural rocks as filler materials for medium-temperature packed bed thermal energy storage system

  • Authors: Hrifech, S.; Agalit, H.; Jarni, A.; Bennouna, E.G.; Mimet, A.
  • Journal: Journal of Energy Storage, 2020, 32, 101822
  • Abstract: (The abstract is not available in this source.)
  • Related documents: This article has 13 citations.

Conference Paper: Structural and thermophysical characterization of potential natural rocks for medium temperature thermal energy storage in CSP plants

  • Authors: Agalit, H.; Hrifech, S.; Bennouna, E.G.; Faik, A.; Mimet, A.
  • Journal: AIP Conference Proceedings, 2019, 2126, 200001
  • Abstract: (The abstract is not available in this source.)
  • Related documents: This conference paper has 0 citations.

 

Conference Paper: Preliminary characterizations of natural rocks as storage materials for a medium range temperature TES

  • Authors: Hrifech, S.; Agalit, H.; Bennouna, E.G.; Mouguina, E.M.; Mimet, A.
  • Journal: AIP Conference Proceedings, 2019, 2123, 020091
  • Abstract: (The abstract is not available in this source.)
  • Related documents: This conference paper has 4 citations.

 

Conference Paper: Potential sensible filler materials thermal energy storage for medium range temperature

  • Authors: Hrifech, S.; Agalit, H.; Bennouna, E.G.; Mimet, A.
  • Journal: Lecture Notes in Electrical Engineering, 2019, 519, pp. 755–761
  • Abstract: (The abstract is not available in this source.)
  • Related documents: This conference paper has 3 citations.

Research Timeline

Soukaina’s research timeline spans from her undergraduate studies to her current role as a Laboratory Manager for Storage Materials at the Green Energy Park Research Institute. Over the years, she has been involved in various research projects and collaborations, contributing to the advancement of knowledge in the field of thermal energy storage and renewable energy.

Collaborations and Projects

Soukaina Hrifech has been actively involved in collaborative research projects with academic institutions, research organizations, and industry partners. Her expertise in experimental validation, material characterization, and modeling has been instrumental in the successful execution of projects aimed at developing innovative solutions for thermal energy storage and advancing the transition to sustainable energy systems.