Martin Parisot | hydrogeology | Editorial Board Member

Published on by Environmental Scientists

Dr. Martin Parisot | hydrogeology | Editorial Board Member

Inria Center at Bordeaux University | France

Dr. Martin Parisot is a dedicated junior researcher at INRIA whose work integrates advanced mathematical modeling with computational techniques to address complex challenges in geophysical and environmental fluid dynamics. His research bridges kinetic theory, hydrodynamic limits, hyperbolic systems, and dispersive phenomena to develop unified models capable of describing multi-scale water-related processes with exceptional precision. He contributes significantly to the formulation and analysis of shallow-water, congested-flow, and wave-propagation models, emphasizing entropy principles, asymptotic preservation, and structure-preserving numerical schemes. His expertise includes innovative coupling strategies, weakly dispersive approximations, and adaptive numerical methods that enhance the reliability of simulations for free-surface flows, groundwater interactions, and large-scale oceanic dynamics. Parisot’s scientific output has earned substantial recognition, reflected in 434 citations, an h-index of 11, and an i10-index of 13, highlighting the broad impact of his contributions. His publications cover diverse themes such as hydrodynamic model derivation, interface coupling techniques, dispersive approximations of Euler equations, kinetic equations for swarm behavior, and numerical schemes applicable to low-Froude regimes. He has collaborated widely on interdisciplinary projects involving coastal risk assessment, storm surge modeling, renewable marine energy, sediment transport, and unified modeling of geophysical flows, offering analytical depth and computational advances that support environmental forecasting and engineering innovation. In addition to his research activities, he has guided emerging scholars and contributed to editorial and scientific committee roles, as well as the organization of conferences in applied mathematics. Through sustained contributions to modeling and numerical analysis, Parisot continues to advance the understanding and prediction of complex geophysical systems, reinforcing his role in the progression of environmental and computational fluid dynamics research.

Featured Publications

Fernandez-Nieto, E. D., Parisot, M., Penel, Y., & Sainte-Marie, J. (2018). A hierarchy of dispersive layer-averaged approximations of Euler equations for free surface flows. Communications in Mathematical Sciences, 16(5), 1169–1202.

Godlewski, E., Parisot, M., Sainte-Marie, J., & Wahl, F. (2018). Congested shallow water model: Roof modeling in free surface flow. ESAIM: Mathematical Modelling and Numerical Analysis, 52(5), 1679–1707.

Parisot, M., & Vila, J.-P. (2016). Centered-potential regularization for the advection upstream splitting method. SIAM Journal on Numerical Analysis, 54(5), 3083–3104.

Parisot, M. (2019). Entropy-satisfying scheme for a hierarchy of dispersive reduced models of free surface flow. International Journal for Numerical Methods in Fluids, 91(10), 509–531.

Lachowicz, M., LeszczyΕ„ski, H., & Parisot, M. (2017). Blow-up and global existence for a kinetic equation of swarm formation. Mathematical Models and Methods in Applied Sciences, 27(06), 1153–1175.

 

Mohamed Bey Zekkoub | Environmental Modelling | Young Researcher Award

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Dr. Mohamed Bey Zekkoub | Environmental Modelling | Young Researcher Award

Researcher | Swiss Federal Laboratories for Materials Science and Technology | Switzerland

Dr. Mohamed Bey Zekkoub is a dedicated environmental scientist and water expert with extensive experience in water quality analysis, environmental risk assessment, and predictive modeling of complex environmental systems. His work bridges experimental research, numerical simulations, and machine learning approaches to understand and mitigate the impacts of chemical pollutants and plastic waste in aquatic ecosystems. He has contributed to major studies on industrial effluents, riverine pollution, and the fate of polymers in water systems, providing actionable insights for sustainable water management and ecological protection. Dr. Mohamed Bey Zekkoub has held research and consultancy roles in leading institutions, where he developed advanced numerical models, conducted ecological risk assessments, and guided mitigation strategies for environmental compliance. His expertise spans hydro informatics, chemistry, environmental modeling, and natural resource management, enabling him to support evidence-based policy development and sustainable practices. He has been recognized for his innovative contributions with prestigious awards and has presented his research at international conferences while publishing in top-tier journals. In addition to research, he has actively contributed to the development of environmental modeling tools, enhancing the accuracy of pollutant transport simulations. With a strong foundation in computational fluid dynamics, numerical modeling, and programming languages, Mohamed combines technical proficiency with a passion for addressing global environmental challenges, particularly in water security, pollution management, and the sustainable stewardship of natural resources. He continues to advance knowledge in environmental science through interdisciplinary collaboration, experimentation, and innovative modeling approaches to support a healthier and more resilient planet. His work has been cited once since 2020, with an h-index of 1, reflecting recognition of his contributions to the field.

Profile: Google Scholar

Featured Publications

Bey-Zekkoub, M., Tassi, P., Lucas, C., & Chhim, N. (2025). Modeling solute transport in rivers: Analytical and numerical solutions. Environmental Modelling & Software, 106580.

Bey-Zekkoub, M., Tassi, P., & Chhim, N. (2025). Assessing the impacts of sodium polyacrylate discharge into the Seine River: A numerical modeling approach. Journal of Contaminant Hydrology, 104740.

Bey-Zekkoub, M., Tassi, P., Chhim, N., Bretaud, M., & Harnichard, A. (2024). Interaction between sodium polyacrylate and sediment transport in a simplified river reach configuration. Telemac User Conference TUC 2024.

Bey-Zekkoub, M., Tassi, P., Lucas, C., & Chhim, N. (2024). Analytical and numerical solutions for one-dimensional solute transport in rivers: Advection, adsorption, degradation, and bed accumulation. Journal of Hydrology.

Roger Falconer | Water Science | Best Researcher Award

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Prof. Dr. Roger Falconer | Water Science | Best Researcher Award

Emeritus Professor of Water and Environmental Engineering, Cardiff University, United KingdomΒ 

Roger Falconer is an internationally renowned expert in Hydro-Environmental Modelling 🌊 and Flood Risk Modelling 🌧️. He serves as Emeritus Professor of Water and Environmental Engineering at Cardiff University and holds professorial roles in leading Chinese institutions πŸ‡¨πŸ‡³. As a Fellow of the Royal Academy of Engineering πŸ… and a Foreign Member of the Chinese Academy of Engineering, he has shaped water security strategies globally 🌍. With 7000+ Scopus citations and over 70 supervised PhDs, his contributions span academic, policy, and industrial applications in water systems, flooding, and tidal renewable energy ⚑.

Profile

Orcid

πŸŽ“ Education

Roger Falconer’s academic journey began with a BSc (Hons) in Civil Engineering from King’s College London πŸŽ“, followed by a Master’s (MSCE) from the University of Washington πŸ‡ΊπŸ‡Έ. He earned a PhD DIC from Imperial College London and later received prestigious higher doctorates: DEng from the University of Birmingham and DSc(Eng) from Imperial College London πŸ“˜. In 2022, he was awarded an Honorary Doctor of Engineering by the University of Bradford in recognition of his distinguished engineering leadership πŸ—οΈ.

πŸ’Ό Experience

Roger Falconer began his academic career as a Lecturer in Hydraulic Engineering at the University of Birmingham (1977–86), advancing to Professor of Environmental Hydraulics and Department Head at the University of Bradford (1986–97) 🏫. At Cardiff University, he served as Professor (1997–2018) and now holds the title of Emeritus Professor. Internationally, he has held honorary roles in leading Chinese universities and advised major institutions on hydro-environmental issues 🌐.

πŸ”¬ Research Interest

His research focuses on Hydro-Environmental Modelling, Flood Risk Modelling, Tidal Renewable Energy, and Global Water Security 🌐. Roger pioneered modelling tools such as DIVAST, a key engine in the widely used Flood Modeller software πŸ’». His models support over 100 global environmental impact assessments and are used by 60+ academic institutions worldwide 🌍. His recent work expands to tidal lagoons and barrages, helping shape sustainable water infrastructure for the future 🌊.

πŸ† Awards

Roger Falconer is a Fellow of four prestigious academies, including the Royal Academy of Engineering (1997) and the Chinese Academy of Engineering (2019) 🌟. He has received multiple honorary memberships and chaired the REF2014 Civil Engineering panel in the UK πŸ‡¬πŸ‡§. As a prolific speaker, he’s delivered 40+ keynotes and held lectures at 570+ institutions worldwide. His impact on water engineering has been recognized globally through awards, lectureships, and scientific advisory roles πŸ₯‡.

πŸ“š Publications

Modelling and Forecasting Processes in Urban Environments (2025) – Hydrology
πŸ“‘ Cited by: TBD

An Approach for IoT-Based Smart Sensors Placement (2025) – EGU
πŸ“‘ Cited by: TBD

Monsoonal Extreme Rainfall in Southeast Asia: A Review (2024) – Water
πŸ“‘ Cited by: TBD

Impact of West Somerset Lagoon on Water Renewal (2024) – EGU
πŸ“‘ Cited by: TBD

The Influence of Open Boundary Location on Tidal Lagoon Modelling (2023) – EGU
πŸ“‘ Cited by: TBD

Dynamic Tracing of Fecal Bacteria Using 2D/3D Models (2022) – River
πŸ“‘ Cited by: TBD

A Unified Formula for Discharge Capacity of Street Inlets (2022) – Journal of Hydrology
πŸ“‘ Cited by: 5+

Flood Risk Assessment of People and Vehicles (2022) – Science of The Total Environment
πŸ“‘ Cited by: 10+

Water Security: Why We Need Global Solutions (2021) – Engineering
πŸ“‘ Cited by: 25+

Tidal Energy Generation Schemes Using Genetic Algorithms (2021) – Applied Energy
πŸ“‘ Cited by: 15+

Conclusion

Roger Falconer is highly deserving of the Best Researcher Award due to his remarkable contributions to hydro-environmental modelling, his substantial academic output, and his leadership within the field. His models and research have global relevance, especially in addressing complex issues related to water security and sustainable development. With continued collaboration in interdisciplinary fields, Falconer has the potential to influence future water management strategies and policies on a global scale.