Ahmed Romya | Hydrodynamics | Research Excellence in Civil and Environmental Engineering Award

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Mr Ahmed Romya | Hydrodynamics | Research Excellence in Civil and Environmental Engineering Award

Assistant Researcher, Coastal Research Institute (CoRI), National Water Research Center (NWRC),

Ahmed A. Romya is a dedicated coastal engineering researcher specializing in hydrodynamics and coastal protection. He holds an M.Sc. in Civil Engineering from Alexandria University, focusing on “Corrugated Breakwater for Coastal Protection.” Currently serving as an Assistant Researcher at the Coastal Research Institute (CoRI), National Water Research Center (NWRC), he has contributed significantly to climate adaptation strategies for Egyptian ports. With extensive experience in hydrographic surveys, he also serves as an instructor at the Port Training Institute. His research addresses coastal resilience, sediment transport, and sustainable port adaptation under climate change impacts.

PROFESSIONAL PROFILE

Google Scholar

Orcid

Scopus

STRENGTHS FOR THE AWARD

  1. Extensive Research in Coastal Protection & Climate Adaptation
    • Romya has made significant contributions to coastal engineering, focusing on breakwaters, coastal protection, and climate change adaptation strategies.
    • His research on corrugated semi-circular breakwaters and Egyptian port adaptation to climate impacts demonstrates a strong technical foundation in hydraulics and marine structures.
  2. High-Impact Publications
    • He has authored multiple research papers in well-regarded journals such as the Journal of Coastal Research, Sustainability, and the Alexandria Engineering Journal.
    • His work has been published with reputable publishers like MDPI and indexed in Crossref, indicating scholarly recognition.
  3. Strong Academic Background
    • Holds an M.Sc. in Hydraulics and Irrigation Engineering with a focus on Corrugated Breakwater for Coastal Protection from Alexandria University.
    • Earned a B.A. with Honors (Excellent) in Civil Engineering, further supporting his academic excellence.
  4. Practical Leadership & Research Experience
    • Serves as Assistant Researcher at the Coastal Research Institute (CoRI), part of Egypt’s National Water Research Center (NWRC).
    • Previously held leadership roles as Director of Aboquir & El-Burullus Coastal Research Stations, demonstrating his capability in applied research and management.
    • Has also been involved in hydrographic surveys & maritime training, contributing to both academia and industry.
  5. Collaborative & Multidisciplinary Contributions
    • Worked with experts in climate change, coastal engineering, and sustainability.
    • Engaged in multidisciplinary research that spans hydrodynamics, climate resilience, and port engineering.

AREAS FOR IMPROVEMENT

  1. Further International Collaboration & Grants
    • Expanding research collaborations with global institutions could strengthen his academic influence.
    • Applying for international research grants in climate adaptation and coastal resilience would enhance his impact.
  2. Increased Citation Impact
    • While his publications are significant, boosting citations & journal impact factors through broader dissemination and networking could further establish his authority in the field.
  3. Expanding Research Beyond Egypt
    • While his work is regionally impactful, engaging in research on global coastal protection strategies could elevate his standing in the international hydrodynamics community.

EDUCATIONAL QUALIFICATIONS 🎓

  • Master of Science (M.Sc.) – Hydraulics and Irrigation Department, Alexandria University (2016–2022).
    Thesis: “Corrugated Breakwater for Coastal Protection”
  • Pre-Master Courses – Specializing in Waves Mechanics, Computational Hydraulics, Sediment Transport, and Statistical Analysis.
  • Bachelor’s Degree (B.Sc.) – Civil Engineering, Alexandria University (2010–2015), Graduated with Honors (Excellent Degree).

WORK EXPERIENCE 💼

  • Assistant Researcher (2022–Present) – Coastal Research Institute (CoRI), NWRC.
  • Director of Aboquir Coastal Research Station (2023–Present) – Leading coastal protection studies.
  • Director of El-Burullus Coastal Research Station (2019–2020) – Focused on sediment transport & hydrodynamic assessments.
  • Research Assistant (2016–2022) – Coastal Research Institute (CoRI), NWRC.
  • Instructor (2018–Present) – Port Training Institute, AAST, teaching hydrographic survey & data analysis.
  • Demonstrator (2015–2016) – Egyptian Russian University (ERU).

AWARDS & HONORS 🏆

  • Recognized Researcher in Coastal Engineering by Alexandria University.
  • Excellence in Hydrodynamic Research Award, NWRC.
  • Best Paper Award for “Performance Assessment of Corrugated Semi-Circular Breakwaters” at Alexandria Engineering Journal.
  • Featured Speaker at Cairo Water Week 2022.
  • High Distinction Graduate Award from Alexandria University (2015).

RESEARCH FOCUS 🔬

Ahmed A. Romya’s research focuses on coastal resilience, hydrodynamic modeling, sediment transport, and sustainable port adaptation strategies under climate change. He specializes in corrugated breakwaters, computational hydraulics, and inland port sustainability. His work integrates hydrographic surveys, unsteady flow analysis, and adaptive coastal infrastructure planning.

PUBLICATION TOP NOTES 📄

  • Adaptation and Development Plans of the Egyptian Ports under Climate Change 🌍 (Ocean and Coastal Management Journal, 2025)
  • Climate Impacts on Egyptian Inland Ports and Adaptation Strategies 🚢 (Journal of Coastal Research, 2024)
  • A Qualitative Analysis of Climate Impacts on Egyptian Ports 🌿 (Sustainability Journal, 2024)
  • Innovative Multi-Used Berm Breakwater for Coastal Protection 🌊 (Cairo Water Week, 2022)
  • Hydraulic Performance of the Semi-Circular Breakwater for Coastal Protection 🏗️ (International Conference on Chemical, Energy & Environmental Engineering, 2021)
  • Performance Assessment of Corrugated Semi-Circular Breakwaters 🌊 (Alexandria Engineering Journal, 2021)

CONCLUSION

Ahmed A. Romya is a strong contender for the Best Researcher Award, given his groundbreaking work in coastal engineering, strong academic credentials, leadership in research institutions, and high-impact publications. With further international collaborations and funding initiatives, he can solidify his position as a leading researcher in climate adaptation and hydraulic engineering.

Mohammed LOUKILI | Fluid dynamics | Best Researcher Award

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Dr Mohammed LOUKILI | Fluid dynamics | Best Researcher Award

Associate Proffessor, IRENAV, Ecole Navale de Brest, France

Mohammed Loukili is a distinguished researcher in Mécanique-Énergétique, specializing in wave-structure interactions and computational fluid dynamics. He earned his Doctorate from Université Hassan II-Casablanca, focusing on numerical solutions for free-surface problems. His postdoctoral work spans leading institutions, including Avignon University in France and Dalian University of Technology in China, where he contributed to reactive system dynamics and wave-current interactions. His research integrates analytical and numerical modeling to advance fluid mechanics and engineering applications. Loukili has authored numerous impactful publications and actively collaborates on international projects. Currently, he is affiliated with École Navale de Brest, contributing to cutting-edge research in naval hydrodynamics. His work has received significant recognition in the scientific community, cementing his expertise in applied mechanics and energy systems.

PROFESSIONAL PROFILE

Google Scholar

Orcid

Scopus

STRENGTHS FOR THE AWARD

  1. Strong Academic Background
    • Ph.D. in Mécanique-Énergétique with high distinction.
    • Postdoctoral research experience in France and China in cutting-edge fields of mechanics and energy systems.
  2. Significant Research Contributions
    • Extensive work in wave-structure interactions, free surface flows, and numerical methods in fluid mechanics.
    • Publications in high-impact journals and international conferences, demonstrating broad research impact.
    • Collaboration with renowned researchers and institutions.
  3. Citations & Influence
    • Multiple papers with 10+ citations, indicating high research visibility.
    • Studies on numerical modeling, wave-current interactions, and fluid mechanics have been widely referenced.
  4. Interdisciplinary Impact
    • Contributions in energy systems, environmental mechanics, and computational simulations.
    • Work extends to hydrodynamics, heat transfer, and seismic analysis, making it relevant across various engineering fields.
  5. International Collaboration & Recognition
    • Research affiliations with France, China, and Morocco, showing a global academic footprint.
    • Active participation in international conferences and research groups.

AREAS FOR IMPROVEMENT

  1. Increased Citation Impact
    • Although several papers have good citations, increasing the h-index through more collaborative and high-impact studies can further strengthen his profile.
    • Publishing in more high-ranked Q1 journals will enhance academic recognition.
  2. Leadership & Grants
    • Greater involvement in leading research projects, grants, or supervising Ph.D. candidates would establish him as a key research leader.
    • Securing international research funding would add credibility to his contributions.
  3. Industrial & Practical Applications
    • Bridging research with real-world applications in energy, naval engineering, or environmental science could further elevate his impact.
    • Engaging in patents, industry partnerships, or policy contributions would add practical value.

EDUCATION 🎓

  • Doctorat en Mécanique-Énergétique (2014-2019) – Université Hassan II-Casablanca, Morocco
    Thesis: Contribution Numérique à la Résolution des Problèmes à Surface Libre
  • Master en Énergies Renouvelables et Matériaux (2012-2014) – Université Hassan II-Casablanca, Morocco
  • Licence en Science de la Matière Physique – Option Mécanique (2009-2012) – Université Hassan II-Casablanca, Morocco
  • Baccalauréat en Sciences Expérimentales (2008-2009) – Lycée Ibnou Chouhaid, Casablanca, Morocco

EXPERIENCE 💼

  • Postdoctoral Researcher (2022-2023) – Université d’Avignon, France
    Studied out-of-equilibrium dynamical reactive systems for polymerization and heat flux control.
  • Postdoctoral Researcher (2021-2022) – Dalian University of Technology, China
    Conducted analytical and numerical studies on wave-current interactions and their effects on structures.
  • Affiliation – École Navale de Brest, France
    Current research in naval hydrodynamics and fluid mechanics applications.

AWARDS & HONORS 🏆

  • Recognized for Excellence in Computational Fluid Dynamics Research
  • Best Research Paper Award in Civil and Environmental Engineering (2021)
  • Recipient of International Postdoctoral Fellowship (France & China)
  • Top Contributor in Wave-Structure Interaction Studies
  • Multiple Citations and Recognitions in Peer-Reviewed Journals

RESEARCH FOCUS 🔬

  • Wave-Structure Interactions & Fluid Mechanics 🌊
  • Computational Modeling in Hydrodynamics 💻
  • Absorbing Boundary Conditions in Numerical Simulations 📐
  • Seismic Response of Marine Structures 🌍
  • Reactive System Dynamics & Polymerization Processes ⚛️

PUBLICATION TOP NOTES 📚

  • Numerical Stability Investigations of the Method of Fundamental Solutions Applied to Wave-Current Interactions Using Generating-Absorbing Boundary Conditions ✨
  • Computation of Nonlinear Free-Surface Flows Using the Method of Fundamental Solutions 🌊
  • New Numerical Investigation Using Meshless Methods Applied to Linear Free Surface Water Waves 📊
  • A Generating-Absorbing Boundary Condition Applied to Wave-Current Interactions Using the Method of Fundamental Solutions 🔬
  • Analytical and Numerical Investigations Applied to Study the Reflections and Transmissions of a Rectangular Breakwater Placed at the Bottom of a Wave Tank 🏗️
  • Numerical Analysis of an Absorbing Boundary Condition Applied to Free Surface Water Waves Using the Method of Fundamental Solutions 📈
  • The Seismic Response of Fluid Filling in a Rectangular Reservoir at Nador City, Morocco 🌍
  • New Contribution to Stokes Equations ✏️
  • Computerized Decision Aid Applied to Meshless Method for Wave-Structure Interactions 🤖
  • Efficient Recommendations for Improving Teaching Quality: Face-to-Face, Distance-Learning, and Learners with Disabilities 🎓
  • A Computational Simulation of Steady Natural Convection in an H-Form Cavity 🔥
  • Theoretical Investigation Applied to Scattering Water Waves by Rectangular Submerged Obstacles and Submarine Trenches 🌊
  • Insecticides in Agricultural Groundwater in the Gharb Plain (Morocco): Spatial Distribution and Health Risks 🌱
  • Using Software Applications in Teaching of Slope-Deflection Method in Static Analysis of Constructions 🏗️
  • The Seismic Response of Cylindrical Steel Tanks at Al Hoceïma City in Morocco ⚡
  • Numerical Modeling of Natural Convection in a Cavity with H-Form Containing Two Adiabatic Obstacles 🏢
  • Modélisation de l’Interaction Houle-Marche Rectangulaire Par la Méthode des Solutions Fondamentales 🌊
  • Formulation Semi-Analytique de la Propagation Non Linéaire de la Houle 🔢
  • Wave-Structure Interactions: A Literature Review 📖
  • Numerical Modeling of Jet at the Bottom of a Tank at Moderate Reynolds Number Using Compact Hermitian Finite Differences Method 🔍

CONCLUSION

Mohammed Loukili is a strong candidate for the Best Researcher Award due to his outstanding contributions in fluid mechanics, wave-structure interactions, and numerical modeling. His interdisciplinary research, international collaborations, and consistent publication record make him a valuable asset to the scientific community. Enhancing citation impact, securing leadership roles, and increasing industrial applications would further solidify his case for prestigious awards.

Would you like me to refine any specific aspect or add details for nomination purposes?

IÁLYSSON DA SILVA MEDEIROS – Dynamics of structures – Best Researcher Award

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IÁLYSSON DA SILVA MEDEIROS - Dynamics of structures - Best Researcher Award

Federal University of Pernambuco - Brazil

AUTHOR PROFILE

GOOGLE SCHOLAR

EDUCATION AND ACADEMIC ACHIEVEMENTS

Iálysson da Silva Medeiros is a Civil Engineering professional with a robust academic background and extensive research experience. He completed his Master's degree in Civil and Environmental Engineering at the Federal University of Pernambuco (UFPE) in 2023, specializing in Reinforced Concrete Structures at Faculdade Única de Ipatinga (FUNIP) in 2021, following his Bachelor's degree in Civil Engineering from UFPE in 2019. His academic journey includes international exposure through a mission at the Faculty of Engineering, University of Porto (FEUP), Portugal.

EXPERIENCE AND PROFESSIONAL CONTRIBUTIONS

Throughout his career, Iálysson has made significant contributions to Structural Engineering, focusing on research areas such as concrete and steel structures, structural dynamics, and soil-structure interaction. He excelled in the Simplified Public Selection for Substitute Professor at UFPE in 2021, teaching in both Civil Engineering and Production Engineering programs. His research projects have centered on innovative topics like vibration control of steel towers for wind turbines and geotechnical studies of foundation systems.

RESEARCH & DEVELOPMENT, INNOVATIONS, AND EXTENSION ACTIVITIES

In the realm of Research & Development, Iálysson has led diverse projects from inception to implementation, ensuring scientific rigor and technical precision in drafting and revising papers. He has supervised research teams, managed projects effectively, and applied advanced methodologies to investigate structural behaviors under varying loads. His work aims to bridge knowledge gaps in Structural Engineering, contributing to practical advancements that enhance structural safety, efficiency, and sustainability globally.

NOTABLE PUBLICATIONS

Influência da interação solo-estrutura no comportamento do conjunto torre-fundação de aerogeradores de eixo horizontal 2023.

Avaliação dos impactos das precipitações pluviométricas na manutenção da rede de esgotamento sanitário no Município de Caruaru, Agreste de Pernambuco. 2022 (1)

Avaliação da significância entre médias de recalques medidos nos pilares de um reservatório através de métodos estatísticos 2022

Elaboração dos mapas de suscetibilidade dos solos de Pombos (PE) aplicando o geoprocessamento com software QGIS 2021

Solução estrutural de galpão em aço 2022 (4)