Hamed Abdeh Keykha | Soil | Sustainable Soil Practices Award

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Dr. Hamed Abdeh Keykha | Soil | Sustainable Soil Practices Award

Dr. Hamed Abdeh Keykha | London South Bank University | United Kingdom

Dr. Hamed Abdeh Keykha’s research focuses on advancing sustainable ground improvement and soil stabilization techniques within the fields of geotechnical and geological engineering. His work integrates innovative biogeochemical approaches such as microbially induced carbonate precipitation (MICP) and CO₂-induced carbonate precipitation (CICP) to enhance soil strength, reduce contamination, and promote carbon sequestration. As a Research Fellow under the Marie Skłodowska-Curie Actions program at the London South Bank University, he investigates environmentally friendly engineering methods for stabilizing problematic soils and mitigating dust pollution. His academic contributions include more than twenty peer-reviewed journal publications and an international patent on the stabilization of sandy soils and fine dusts through CO₂-induced mineral carbonation. Dr. Keykha’s research bridges the gap between earth resource engineering and environmental sustainability by focusing on soil biocementation, mineral carbonation processes, and geotechnical applications for sustainable construction. His collaborations with international institutions have strengthened global research in ground improvement technologies and green engineering materials. Through his combined academic, industrial, and field experience, he continues to contribute to innovative solutions addressing geotechnical challenges, environmental remediation, and the sustainable utilization of earth resources.

Profile:  Orcid 

Featured Publications

Keykha, H. A., Joshi, S., Mavroulidou, M., Mohamadzadeh Romiani, H., & Asadi, A. (2025). Carbonate mineral formation by microalgae: Precipitation potential and morphological analysis. Minerals, 15(11), 1096.

Mohamadzadeh Romiani, H., Keykha, H. A., Talebi, M., Asadi, A., & Kawasaki, S. (2023). Green soil improvement: Using carbon dioxide to enhance the behaviour of clay. Proceedings of the Institution of Civil Engineers – Ground Improvement.

Keykha, H. A., Zangani, A., Mohamadzadeh Romiani, H., Asadi, A., Kawasaki, S., & Radmanesh, N. (2023). Characterizing microbial and CO₂-induced carbonate minerals: Implications for soil stabilization in sandy environments. Minerals, 13(7), 976.

Keykha, H. A., Mohamadzadeh Romiani, H., Zarei, A., & Asadi, A. (2022). Stabilization of petroleum-contaminated sandy soil using CO₂-induced magnesite precipitation. International Journal of Environmental Research, 16(4), Article 473.

Rui Zhang | Soil Science | Best Researcher Award

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Dr. Rui Zhang | Soil Science | Best Researcher Award

Dr. Rui Zhang, Aalto University, Finland

Dr. Rui Zhang is a Postdoctoral Researcher at Aalto University, Finland, specializing in digital twin technologies, AI-integrated construction monitoring, and geotechnical engineering. He holds a PhD in Civil Engineering from the University of Sheffield, UK, and has conducted research across leading institutions including Nanyang Technological University and The Hong Kong Polytechnic University. His work focuses on the integration of sensing systems, advanced numerical modeling, and machine learning to enhance infrastructure performance and safety in complex civil environments.

Profile

Scopus

Summary:

Dr. Rui Zhang demonstrates excellence in high-impact, interdisciplinary research in civil and geotechnical engineering with a forward-looking focus on digital transformation in infrastructure. His international academic trajectory, technical depth, and commitment to mentorship position him as an outstanding candidate for a Best Researcher Award.

🎓 Education

Rui Zhang has a strong academic foundation in civil engineering, having pursued a PhD from the University of Sheffield in the United Kingdom, where he specialized in advanced geotechnical modeling. His postgraduate education also includes a Master’s degree in Civil Engineering and Solid Mechanics from Lanzhou University in China, with additional research experience at I-Shou University in Taiwan. He began his academic journey with a Bachelor of Science in Civil Engineering from Zhengzhou University.

💼Experience

Rui Zhang has accumulated rich international research and academic experience through postdoctoral and research fellow roles in esteemed institutions. At Aalto University in Finland, he worked on developing digital twin systems for monitoring building construction processes using integrated sensing technologies and neurosymbolic reasoning. As a Research Fellow at Nanyang Technological University in Singapore, he contributed to the development of a city-scale digital twin for underground transportation infrastructure. At the Hong Kong Polytechnic University, he focused on leak detection in pipelines using smart sensing systems, AI techniques, and wavelet signal analysis. During his doctoral studies, he specialized in limit analysis for unsaturated soil problems using Discontinuity Layout Optimization. His early research activities included nonlinear mechanics and pavement material analysis using stochastic finite element methods.

🔬Research Focus

Rui Zhang’s research interests span across digital twin systems, geotechnical engineering, structural health monitoring, AI-integrated modeling, soil-structure interaction, and tunnel infrastructure. He has a particular focus on applying physics-based and AI-enhanced computational methods to complex civil engineering problems including underground space behavior, pipeline diagnostics, and automated construction process monitoring.

🛠️Skills

He possesses strong technical skills in geomechanics, numerical modeling, and AI applications such as machine learning and deep learning for civil engineering systems. Rui is proficient in MATLAB, ANSYS, AutoCAD, and LabVIEW, and has hands-on experience with experimental setups, sensor integration, and data analytics. He is also adept in using BIM modeling tools and simulation platforms for smart construction and infrastructure management.

🏆Awards

Rui Zhang is an Associate Fellow of the Higher Education Academy (HEA), showcasing his commitment to excellence in academic teaching and mentorship. He has served as a reviewer for leading journals including Acta Geotechnica, Tunnelling and Underground Space Technology, and Engineering Applications of Artificial Intelligence. Additionally, he holds a position on the Youth Editorial Board of the International Journal of Smart Construction, where he contributes to advancing digital twin technologies in construction.

📚 Publications

Title: Automated finite element analysis of burst capacity for corroded pipelines
Author: Rui Zhang
Year: 2025
Journal: International Journal of Pressure Vessels and Piping

Conclusion:

Dr. Rui Zhang is a highly deserving nominee for the Research for Best Researcher Award. His strengths in digital construction, computational geomechanics, and AI-integrated infrastructure monitoring are not only timely but crucial for the future of resilient and intelligent built environments. With continued leadership and broader dissemination of his work, he is poised to become a global leader in the field.

Biplab Brahma | Soil Fertility | Soil Nutrient Management Pioneer

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Dr. Biplab Brahma | Soil Fertility | Soil Nutrient Management Pioneer

Dr. Biplab Brahma, Assam University, India

Dr. Biplab Brahma is an environmental researcher specializing in soil carbon sequestration, biomass modeling, and climate change mitigation. He holds a Ph.D. in Ecology and Environmental Science from Assam University, India, with expertise in soil health management, carbon flux, and agroforestry systems. Dr. Brahma has worked extensively on ecosystem carbon stocks, fine root dynamics, and land use impact assessments. He has received the Shastri Indo-Canadian Postdoctoral Fellowship (2019) and the Junior Scientist of the Year Award (2017). His research contributes to sustainable land management, biodiversity conservation, and climate resilience, with multiple high-impact publications and international collaborations.

Profile

Scopus

Summary:

Dr. Biplab Brahma has made pioneering contributions to soil nutrient management through his research on soil carbon sequestration, fine root dynamics, and biomass modeling. His work has enhanced the understanding of soil organic matter preservation and ecosystem restoration, making him a strong contender for the Research in Soil Nutrient Management Pioneer Award.

🎓 Education

Dr. Biplab Brahma holds a Ph.D. in Ecology and Environmental Science from Assam University, India, with research focusing on carbon stock and sequestration potential in rubber plantations. He also earned an M.Sc. in Ecology and Environmental Science from the same university and a Postgraduate Diploma in Bamboo Cultivation and Resource Utilization from Tripura University. His academic foundation includes a B.Sc. in Biological Science from Tripura University, and he is currently pursuing an M.A. in Sustainable Science from IGNOU.

💼Experience

Dr. Brahma has extensive research experience in environmental science, particularly in carbon dynamics and soil management. Since March 2020, he has been a Research Associate working on ecosystem carbon stock and sequestration rates in North East Indian forests. Previously, he was a Shastri Indo-Canadian Postdoctoral Research Fellow in 2019, where he assessed soil nutrient management and carbon sequestration strategies. From 2017 to 2019, he served as a Senior Research Fellow, focusing on phytolith occluded carbon in bamboo species for climate change mitigation. Earlier, as a Junior Research Fellow from 2015 to 2017, he assessed carbon sequestration potential in major land-use types of Southern Assam. His career began as a Field Assistant in 2009 on a bamboo cultivation and resource utilization project.

🔬Research Focus

Dr. Brahma specializes in soil carbon stock and sequestration, soil health management, fine root and litter dynamics, biomass modeling, and forest and biodiversity management. His work extends to climate change mitigation and adaptation, ecosystem restoration, and sustainable land management. He has contributed significantly to understanding carbon flux, sequestration rates, and the impact of land use changes on soil organic carbon pools. His research has practical applications in forest conservation, agroforestry, and carbon sink management.

🛠️Skills

Dr. Brahma possesses expertise in soil health management, ecosystem carbon sequestration, and biomass allometric modeling. He is skilled in statistical and GIS tools, including SPSS, R, MS Excel, and QGIS, for environmental data analysis. He has experience in natural resource management, climate change mitigation, and project management. His skills extend to research design, data analysis, laboratory experimentation, and scientific writing. Additionally, he is proficient in community engagement and capacity building and is fluent in English, Hindi, Bengali, and Assamese.

🏆Awards

Dr. Brahma has received notable recognition for his contributions to environmental science. He was awarded the Shastri Indo-Canadian Institute Postdoctoral Fellowship in 2019 and honored as the Junior Scientist of the Year in 2017 by the Confederation of Indian Universities and the International Foundation for Environment and Ecology. His research paper on ecosystem carbon sequestration in North East India was one of the most downloaded articles between 2016 and 2018 in Land Degradation and Development. Another study on biomass stocks and carbon loss in rubber plantations was featured in Science Last Fortnight by Current Science in 2018.

📚 Publications

  • Publication: Significance of land management practices under haskap orchards to mitigate the degradations of soil organic carbon stocks and soil health because of land use changes from forest and grassland
    Author: Brahma, B., Hammermeister, A.M., Lynch, D.H., Smith, P., Nath, A.J.
    Year: 2025
    Journal: Soil Use and Management

Conclusion:

 Dr. Brahma is a highly deserving candidate for this award. His work not only advances scientific knowledge but also provides practical solutions for sustainable soil management and climate change mitigation.