Ghizlane Moutaoukil | Sustainable construction materials | Eco-friendly Construction Practices Award

Published on by Civil Engineering Awards

Dr. Ghizlane Moutaoukil | Sustainable construction materials | Eco-friendly Construction Practices Award

Postdoctoral researcher | Centro de Física de Materiales (CFM) | Spain

Dr. Ghizlane Moutaoukil is a distinguished researcher in materials chemistry and environmental science, specializing in the synthesis, characterization, and thermomechanical evaluation of sustainable construction materials. With a PhD jointly earned from Mohammed V University in Rabat and the Institute of Materials Science of Madrid, the research focuses on the development of dense and porous geopolymers derived from industrial waste. Extensive investigations cover the optimization of mechanical and microstructural properties of fly ash-based geopolymers, thermomechanical behavior, foaming processes, and the integration of radiative cooling functions in cementitious composites. As a postdoctoral researcher at the Centro de Fisica de Materiales (CSIC/UPV-EHU), Moutaoukil continues advancing sustainable materials for environmental and energy applications. The impressive publication record in journals such as Materials Letters, Advanced Science, and Construction and Building Materials reflects deep expertise in MAS NMR, FTIR, XRD, and Raman spectroscopy. Patents and collaborative works, notably the “Modern Roman-Inspired Concrete with Daytime Radiative Cooling Capacity,” demonstrate innovative thinking bridging chemistry and civil engineering. Research also includes the mechanosynthesis of phosphate mine waste-based geopolymers and geochemical applications for pollution control. Proficiency in Arabic, French, English, and Spanish strengthens global collaboration capacity. Technical mastery extends to process engineering, corrosion studies, and rheological analysis, with strong computational and statistical design skills. Active participation in international conferences from Morocco to Spain and Turkey underscores commitment to interdisciplinary scientific exchange. Ghizlane Moutaoukil’s contributions—166 citations, 12 publications, and an h-index of 6—reflect consistent research excellence and growing global recognition, making Ghizlane Moutaoukil a promising leader in sustainable materials and environmental innovation.

Profile: Scopus | ORCID
Featured Publications:

Ghizlane Moutaoukil, Isabel Sobrados, & Jorge S. Dolado. (2025, October). Development of phosphate mine waste-based geopolymer by mechanosynthesis. Construction and Building Materials, 143573.

Jorge S. Dolado, Guido Goracci, Ghizlane Moutaoukil, Ridwan O. Agbaoye, Miguel Beruete, Alicia E. Torres‐García, Laura Carlosena, Achutha Prabhu, Jose A. Ibáñez, Nick Adams, et al. (2025, September 12). A modern Roman-inspired concrete with daytime radiative cooling capacity. Advanced Science.

Ghizlane Moutaoukil, Isabel Sobrados, H. Süleyman Gökçe, & Saliha Alehyen. (2025, June). Effect of thermal treatment, foaming and stabilizing agents on the synthesis of fly ash-based geopolymer foams using Raman spectroscopy and 29Si and 27Al MAS NMR. Sustainable Chemistry for the Environment, 100257.

Ghizlane Moutaoukil, Isabel Sobrados, Saliha Alehyen, & M’hamed Taibi. (2024, May 16). Monitoring the geopolymerization reaction of geopolymer foams using 29Si and 27Al MAS NMR. Minerals, 14(5), 516.

Ghizlane Moutaoukil, Isabel Sobrados, Saliha Alehyen, & M’hamed Taibi. (2024, March). Understanding the thermomechanical behavior of geopolymer foams: Influence of rate and type of foaming agent and stabilizer. Chemical Data Collections, 101111.

Ghizlane Moutaoukil, Saliha Alehyen, Isabel Sobrados, & Amine El Mahdi Safhi. (2023, June). Effects of elevated temperature and activation solution content on microstructural and mechanical properties of fly ash-based geopolymer. KSCE Journal of Civil Engineering.

Kundan Yadav – Construction Materials – Innovative Solutions for Environmental Challenges Award

Published on by Civil Engineering Awards

Mr. Kundan Yadav | Construction Materials | Innovative Solutions for Environmental Challenges Award

Research Scholar | Lovely Professional University | Nepal

Mr. Kundan Yadav has established a strong research and professional profile in the field of civil engineering and construction management with a focus on sustainable practices, low-carbon materials, and resilient infrastructure solutions. His work integrates both academic research and practical implementation, spanning hydropower, bridges, urban water supply, sanitation systems, and building construction. A key area of his research revolves around eco-friendly materials, particularly the use of supplementary cementitious materials, plastic bricks, and biochar as innovative alternatives to reduce carbon emissions and promote circular construction. Publications in peer-reviewed journals highlight his exploration of carbon quantification methods and best practices for emission reduction, reflecting a commitment to advancing sustainability in construction. Professionally, Kundan Yadav has taken progressive roles from Site Engineer to Project Manager, contributing to projects funded by organizations like the World Bank and Asian Development Bank, ensuring quality control, safety compliance, and project efficiency. His leadership in managing hydropower retrofitting, bridge construction, trauma center building, and large-scale infrastructure projects demonstrates expertise in structural stability, resilience, and sustainable project delivery. By combining technical knowledge in AutoCAD, Staad Pro, MS Project, MATLAB, and sustainability assessment with practical construction management skills, he bridges the gap between theory and practice. His work emphasizes transforming waste into valuable construction resources, reducing environmental impact, and promoting innovation in materials science. The consistent focus on resilience and carbon reduction showcases his vision of sustainable infrastructure development tailored to the needs of South Asia, where rapid urbanization demands eco-conscious solutions. Through both research and professional practice, Kundan Yadav contributes to advancing civil engineering toward a future that prioritizes environmental sustainability, efficient resource utilization, and long-term durability of infrastructure systems, marking him as a significant contributor to sustainable construction research and practice.

Profile: Google Scholar
Featured Publications:

  1. Sustainable development by carbon emission reduction and its quantification: An overview of current methods and best practices. (2023). Cited by 21.

  2. Transforming waste into innovation: A review of plastic bricks as sustainable construction materials. (2024). Cited by 13.

  3. Sustainable solutions: Exploring supplementary cementitious materials in construction. (2025). Cited by 7.

  4. Comparative study of biochar and charcoal and their application in the construction industry. (2024). Cited by 5.

  5. Waste water characteristics and its management in and around HSTU campus of Bangladesh. (2021).

Pei Bida – Construction Management – Best Researcher Award

Published on by Civil Engineering Awards

Pei Bida | Construction Management | Best Researcher Award

Lecture | Changsha University of Science & Technology | China

Pei Bida has focused research efforts on advancing the field of civil and environmental engineering with a strong emphasis on modern methods and technologies that enhance the performance, safety, and sustainability of large-scale infrastructure systems. His primary interests include Building Information Modeling (BIM), which he employs to improve project coordination, optimize resource use, and advance the integration of digital solutions into engineering practices. A significant portion of his work is devoted to the numerical simulation of large-span bridges, where he applies computational techniques to analyze structural responses under varying conditions, thereby providing more accurate assessments of safety, serviceability, and durability. This direction in research contributes to the efficient design, construction, and maintenance of bridge systems, ensuring that they meet the increasing demands of modern transportation networks. Another key area of his expertise lies in the fatigue analysis of steel bridges, where he examines the long-term behavior of materials and structural components subjected to cyclic loading. Through such investigations, he seeks to address critical issues of degradation and performance loss, thereby extending the service life of important infrastructure while reducing maintenance costs. His research not only contributes to academic understanding but also has direct practical applications in engineering practice, offering solutions to pressing challenges faced in bridge construction and management. By integrating BIM, advanced simulations, and fatigue studies, Pei Bida is shaping a holistic approach to modern civil engineering that bridges theoretical insights with engineering applications. His contributions demonstrate a commitment to advancing safe, efficient, and technologically driven infrastructure solutions that align with the evolving needs of society. This ongoing body of work underlines his role as a significant contributor to civil engineering research, and his scholarly impact is reflected in 231 Citations by 217 documents, 23 Documents, and a 9 h-index View.

Profile: Scopus
Publications

  1. Experimental and analytical study on the flexural behavior of a novel steel-NC-UHPC composite bridge deck system. (2025).

  2. Experimental study on negative bending resistance of steel-NC-UHPC composite bridge deck. (2025).

Khaled Abdel Aziz Eltawil – Sustainable Construction Materials – Best Researcher Award

Published on by Civil Engineering Awards

Khaled Abdel Aziz Eltawil - Sustainable Construction Materials - Best Researcher Award

Higher Institute for Engineering and Technology at Elmanzala - Egypt

AUTHOR PROFILE

ORCID

SUMMARY

Dr. Khaled Abdel Aziz Eltawil is an accomplished Assistant Professor in Structural Engineering with a strong academic and research background. He is currently serving at ElManzala Higher Institute of Engineering and Technology and is a Postdoctoral Research Associate at Mansoura University. With notable experience in experimental and eco-friendly materials, his work bridges academia and practical application in the construction industry. Dr. Eltawil is recognized for his expertise in high-performance concrete, sustainable engineering solutions, and structural innovations. He actively contributes to academic development, student mentoring, and research leadership, reflecting his holistic commitment to engineering excellence.

EDUCATION

Dr. Eltawil earned his Ph.D. in Structural Engineering from Mansoura University in 2022, where his thesis focused on using black sand to produce heavyweight high-performance concrete for radiation shielding. He obtained his Master’s in 2017, researching sustainable supplementary cementitious materials for green concrete. His educational foundation was laid with a Bachelor’s degree in Civil Engineering in 2014, also from Mansoura University. Throughout his academic journey, he has built a robust foundation in structural materials, sustainability, and innovative construction technologies, which continues to underpin his research and teaching responsibilities today.

PROFESSIONAL EXPERIENCE

Dr. Eltawil holds extensive teaching and research roles. He is currently an Assistant Professor at ElManzala Higher Institute and a Postdoctoral Researcher at Mansoura University. He has previously worked at New Damietta Institute and Mansoura University as a teaching assistant and lecturer. His courses span concrete design, special materials, soil mechanics, and hydraulic engineering. Additionally, he has contributed to engineering projects, including infrastructure development and water treatment systems. His leadership roles include vice director of quality assurance, academic coordinator, and head of various academic and research committees, showcasing his administrative and instructional capabilities.

RESEARCH INTEREST

His research interests include advanced cementitious materials, black sand applications, magnetized water use, green concrete, and engineered composites. He focuses on producing sustainable and radiation-shielding concretes using industrial waste and novel materials. Dr. Eltawil explores the performance enhancement of cementitious systems using nanotechnology, recycled components, and advanced hydration mechanisms. His work reflects a strong commitment to environmental sustainability and practical innovations in structural materials, making significant contributions to high-performance infrastructure. His interdisciplinary focus also involves collaborations in lightweight construction and eco-friendly urban development materials, aligning with global sustainable engineering goals.

AWARD AND HONOR

Dr. Eltawil has received numerous recognitions for his academic and research achievements. He was invited as a reviewer for Q1 journals like Construction and Building Materials and Scientific Reports, acknowledging his authority in the field. He also holds a patent for the use of black sand in concrete, supported by the Egyptian Academy of Scientific Research. His research has been recognized in national projects affiliated with the Egyptian Ministry of Defense and the Housing and Building Research Center. His accolades reflect his excellence in engineering research, innovation, and academic contribution at national and international levels.

RESEARCH SKILL

Dr. Eltawil brings extensive skills in structural analysis software including AutoCAD, SAP2000, ETABS, SAFE, and Primavera P6. He also applies programming tools like MATLAB and Python for modeling and data analysis, particularly in artificial intelligence and neural networks. He is adept at designing experimental setups, analyzing material properties, and interpreting advanced statistical outputs. His involvement in multidisciplinary projects has also enhanced his skills in quality assurance, strategic planning, and academic accreditation. He effectively combines computational modeling with real-world experimentation to develop novel materials and optimize structural designs for practical and sustainable applications.

CONCLUSION

Dr. Khaled Eltawil exemplifies a dynamic and impactful career in structural engineering, merging theoretical innovation with real-world application. His academic leadership, publication record, technical skills, and involvement in national-level projects underscore his status as a leading expert in sustainable construction materials. With ongoing research in high-performance composites and radiation shielding concretes, he continues to address global engineering challenges. His role in education, quality assurance, and scientific committees also highlights his dedication to institutional advancement. As a scientist and educator, Dr. Eltawil remains a valuable contributor to the evolution of structural and environmental engineering.