Ms. Ikram Moulay | Chemical Engineering | Editorial Board Member

Korea Advanced Institute of Science & Technology | South Korea

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Early Academic Pursuits

Ms. Ikram Moulay began her academic journey with a deep commitment to chemical and environmental engineering. From her undergraduate studies in process engineering to her master’s research in chemical engineering, she consistently demonstrated exceptional performance, graduating with distinction. Her academic foundation laid the groundwork for an intensive exploration of environmental remediation, adsorption techniques, and the development of sustainable engineering solutions. This early phase not only shaped her technical expertise but also instilled a strong research-driven mindset oriented toward solving pressing global challenges.

Professional Endeavors

Her professional journey reflects a progressive engagement with leading institutions and industries across different countries. As a research assistant at Abdelhamid Ibn Badis University, she gained expertise in environmental remediation and material valorization. Later, she joined Yonsei University, where she advanced her work in carbon capture, utilization, and storage technologies. At KAIST, she expanded her research into simultaneous NOx and CO2 capture, modeling pilot-scale systems, and exploring industrial applications. Alongside academic roles, her internship at SONATRACH enhanced her industrial exposure, providing practical knowledge of large-scale process engineering operations and technologies.

Contributions and Research Focus

Ms. Moulay’s research is centered on energy, environment, and sustainability, with a special emphasis on carbon capture and utilization strategies. She has worked extensively on designing novel sorbents from industrial waste, creating pathways for efficient CO2 absorption, and transforming emissions into high-value products such as fertilizers and carbonates. Her contributions extend to crystallization kinetics, process modeling, and techno-economic assessments of pilot plants. She has also published impactful papers on sustainable material synthesis and CCUS technologies in leading journals, bridging theoretical research with real-world applications.

Accolades and Recognition

Her outstanding academic and research contributions have been recognized with numerous scholarships and awards. She has received multiple global scholarships for her excellent academic performance and special recognition for her presentations at international conferences on greenhouse gas innovation projects. Prestigious scholarships from environmental foundations further highlight her dedication to advancing sustainable technologies. These recognitions reflect both her academic excellence and her growing influence as a young researcher in energy and environmental engineering.

Impact and Influence

Ms. Moulay’s work has had significant influence on both academic and industrial domains. By developing sustainable CO2 capture technologies and valorizing industrial residues, she contributes directly to global efforts in climate change mitigation. Her innovative methods for producing high-purity calcium carbonate and other value-added products offer practical solutions for reducing emissions while supporting circular economy principles. As a mentor and teaching assistant, she has also influenced students and young researchers, sharing her expertise in laboratory practices and fostering a culture of sustainability-focused engineering research.

Legacy and Future Contributions

Her legacy lies in her ability to bridge science, technology, and sustainability in ways that address some of the world’s most pressing environmental challenges. With ongoing doctoral research and international collaborations, she is set to contribute further to the advancement of carbon capture, sustainable material design, and industrial-scale environmental technologies. Her future endeavors are expected to focus on expanding CCUS systems, developing eco-friendly industrial processes, and mentoring the next generation of engineers committed to building a sustainable future.

Publications

Article: Sustainable Approaches to NOx Emissions: Capture and Utilization Technologies
Authors: Ikram Moulay; Kyumin Jang
Journal: Next Energy
Year: 2025

Article: Experimental and Integrated Computational Study on CCUS Technology Utilizing Desalinated Brine
Authors: Jinwon Park; Won Yong Choi; Kyumin Jang; Sungsoo Lee; Eunsil Kim; Ikram Moulay; Jiwon Myung; Seojin Oh; Yunsung Yoo; Dongwoo Kang et al.
Journal: Preprint
Year: 2024

Article: Strong Acid-Mediated Ca2+ Extraction–CO2 Mineralization Process for CO2 Absorption and Nano-Sized CaCO3 Production from Cement Kiln Dust: Simultaneous Treatment of CO2 and Alkaline Wastewater
Authors: Kyumin Jang; Won Yong Choi; Ikram Moulay; Dongwook Lee; Jinwon Park
Journal: Journal of Environmental Chemical Engineering
Year: 2023

Article: Synthesis of Nano-Sized Calcium Carbonates Employing Molecular Effect on CO2 Conversion via Biodegradable Chelating-System
Authors: Moulay, Ikram; Park, Jinwon; Yoo, Yunsung
Journal: Chemical Engineering Journal
Year: 2023

Conclusion

Ms. Ikram Moulay stands as a promising researcher whose academic brilliance, professional achievements, and impactful contributions in energy and environmental engineering position her as a leader in sustainable technologies. Through her pioneering research, recognized excellence, and dedication to both innovation and teaching, she embodies the qualities of a researcher whose work transcends academia to make a meaningful impact on society and the environment.