Research Excellence Award
Abdelkrim Abourriche
National School of Applied Sciences (ENSA), Safi – Cadi Ayyad University, Morocco
| Abdelkrim Abourriche |
| Affiliation |
National School of Applied Sciences (ENSA), Safi – Cadi Ayyad University |
| Country |
Morocco |
| Scopus ID |
57197714984 |
| Documents |
37 |
| Citations |
817 |
| h-index |
17 |
| Subject Area |
Advanced materials and ceramic membranes; Waste valorization and sustainable materials; Industrial wastewater treatment |
| Event |
International Chemical Scientist Awards |
Prof. Abdelkrim Abourriche is a Moroccan researcher whose scholarly work focuses on advanced materials, ceramic membrane technologies, waste valorization strategies, and industrial wastewater treatment. His academic activities contribute to sustainable engineering solutions and environmentally responsible industrial processes. Citation indicators and publication records demonstrate continued engagement in applied scientific research and interdisciplinary innovation.[1]
Abstract
This article presents an academic overview of Prof. Abdelkrim Abourriche and his contributions to sustainable materials science, ceramic membrane engineering, and wastewater treatment technologies. His publication portfolio, citation performance, and interdisciplinary research activities demonstrate continued engagement in addressing environmental challenges through scientific innovation and applied engineering methodologies.[1][2]
Keywords
Advanced Materials, Ceramic Membranes, Sustainable Engineering, Waste Valorization, Industrial Wastewater Treatment, Environmental Technology, Circular Economy, Applied Chemistry, Resource Recovery, Scientific Research Excellence.[2]
Introduction
Prof. Abdelkrim Abourriche is recognized for research activities related to advanced materials development and environmental sustainability. His work integrates scientific investigation with practical applications, particularly in membrane technologies, waste recycling, and industrial wastewater management. These research areas contribute to addressing contemporary environmental and industrial challenges through evidence-based approaches.[1][3]
Research Profile
Affiliated with the National School of Applied Sciences in Safi, Cadi Ayyad University, Prof. Abourriche maintains an active publication record indexed in international databases. His documented scholarly output, citation metrics, and h-index reflect sustained participation in materials science, environmental engineering, and applied chemical research communities.[1][4]
Research Contributions
The researcher has contributed to studies involving ceramic membrane fabrication, sustainable material utilization, industrial waste treatment, and valorization of by-products. These investigations support resource efficiency and environmental protection objectives while promoting innovative approaches for improving treatment performance and reducing ecological impacts across industrial sectors.[2][5]
Publications
Prof. Abourriche’s publication portfolio includes peer-reviewed journal articles addressing membrane science, wastewater treatment technologies, and sustainable materials. The documented body of work demonstrates a focus on practical environmental solutions and interdisciplinary research collaboration, contributing valuable findings to the broader scientific literature.[1][3]
Research Impact
Research impact is reflected through citation performance, scholarly visibility, and continued relevance within environmental and materials research domains. The citation record indicates that published findings have been referenced by other researchers, supporting knowledge dissemination and contributing to ongoing scientific discussions and technological developments.[1][4]
Award Suitability
The research profile aligns with the objectives of the International Chemical Scientist Awards through demonstrated contributions to environmental chemistry, sustainable material development, and industrial treatment technologies. Academic productivity, measurable research influence, and practical relevance collectively support consideration within scientific recognition and excellence evaluation frameworks.[1][5]
Conclusion
Prof. Abdelkrim Abourriche’s academic record illustrates sustained engagement in research areas that address environmental sustainability and industrial efficiency. Through publications, collaborative investigations, and contributions to materials science and wastewater treatment, his work represents a meaningful component of contemporary applied scientific research and innovation.[1][2]
External Links
References
- Elsevier. (n.d.). Scopus author details: Prof. Abdelkrim Abourriche, Author ID 57197714984. Scopus.https://www.scopus.com/authid/detail.uri?authorId=57197714984
-
Bellaj, M., Rakcho, Y., Regti, A., Gebrati, L., Abouliatim, Y., El Haddad, M., & Abourriche, A. (2026). Methylene blue adsorption by synergistic clay-chitosan-alginate hydrogel beads: Batch and fixed-bed column studies with theoretical modeling. International Journal of Biological Macromolecules, 358, 151758.
https://www.researchgate.net/publication/403394832
-
El Bourachdi, S., Rakcho, Y., Ayub, A. R., El Amri, A., Moussaoui, F., Araña, J., Herrera-Melián, J. A., Abourriche, A., Hannache, H., & Lahkimi, A. (2026). Cu (II) removal from aqueous solution and real textile wastewater: Mechanistic insights, process optimization, and theoretical modeling using advanced Chitosan–EDTA beads. Environmental Science and Pollution Research, 33(13).
https://doi.org/10.1007/s11356-026-37687-y
-
Bellaj, M., Regti, A., El Haddad, M. E., Gebrati, L., Aziz, F., Kurniawan, T. A., & Abourriche, A. K. (2026). Clay/biopolymer composite beads for adsorptive dye removal in batch and fixed-bed systems. Materials Chemistry and Physics, 352, 131998
https://www.sciencedirect.com/science/article/abs/pii/S025405842501644X?via%3Dihub=
- International Chemical Scientist Awards. Award objectives and scientific recognition framework.https://chemicalscientists.com