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

Published on by Civil Engineering Awards

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

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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.

Guojun Wang | Coastal Engineering | Best Researcher Award

Published on by Civil Engineering Awards

Assist Prof Dr. Guojun Wang | Coastal Engineering | Best Researcher Award

Guojun Wang at Dalian University of Technology, China

Wang Guojun is an Assistant Professor at Dalian University of Technology, specializing in marine engineering structures under extreme environments. His research emphasizes the load and structural design of offshore energy installations in Arctic conditions, focusing on anti-ice design and ice load modeling for various marine vessels and platforms. With a commitment to advancing the field of marine engineering, Wang actively participates in research projects supported by national and provincial grants. His innovative approach integrates cutting-edge monitoring technologies and field observations to enhance the understanding of ice mechanics. Wang is dedicated to contributing to the safety and efficiency of offshore structures, particularly in renewable energy applications. His work not only addresses immediate engineering challenges but also aims to foster sustainable development in polar regions.

Profile:

Scopus Profile

Strengths for the Award:

  1. Specialized Research Focus: Wang Guojun’s research in marine engineering structures under extreme conditions, particularly in ice environments, addresses a critical area in renewable energy development.
  2. Innovative Techniques: His use of advanced monitoring technologies, such as distributed fiber optic sensors, reflects a commitment to integrating modern methodologies into traditional engineering practices.
  3. Diverse Contributions: His publications cover a range of relevant topics, including ice load modeling, vibrational response analysis, and fatigue damage assessment, demonstrating a comprehensive understanding of ice mechanics.
  4. Funding and Collaborations: Securing prestigious grants like the National Key Research and Development Program indicates strong recognition of his work and its potential impact in the field.

Areas for Improvement:

  1. Citation Impact: While his work is emerging, increasing citation rates would enhance his academic influence and visibility in the field.
  2. Interdisciplinary Collaborations: Expanding collaborations with researchers from complementary fields (e.g., environmental science or materials engineering) could enrich his research scope and application.
  3. Public Engagement: Increasing outreach efforts to communicate research findings to broader audiences could foster public interest and support for his research initiatives.

Education:

Wang Guojun completed his Bachelor’s degree in Civil Engineering from Dalian University of Technology, where he first developed an interest in marine engineering and structural design. He furthered his education with a Master’s degree in Structural Engineering, focusing on the interactions between structures and environmental conditions, particularly in icy environments. To deepen his expertise, Wang pursued a Ph.D. in Marine Engineering, conducting extensive research on ice mechanics and load modeling for offshore structures. His academic journey has been characterized by a strong emphasis on practical applications, leading to various publications and collaborative projects. With a robust educational foundation, Wang is well-equipped to address complex challenges in marine engineering, particularly those related to extreme climates. His ongoing commitment to education is reflected in his teaching, where he strives to inspire the next generation of engineers to innovate in the field of coastal and marine engineering.

Experience:

Wang Guojun has accumulated significant experience in marine engineering through both academic and research positions. As an Assistant Professor at Dalian University of Technology, he has played a pivotal role in shaping the curriculum for courses on structural design and offshore engineering. His hands-on research experience includes leading multiple projects focused on the structural integrity of marine installations in extreme environments, supported by grants from national and provincial scientific foundations. Wang has also collaborated with industry partners to apply his research findings in real-world scenarios, particularly in the renewable energy sector, such as offshore wind power. Additionally, he has participated in various international conferences and workshops, presenting his research on ice mechanics and offshore structures. This blend of academic and practical experience allows Wang to contribute meaningfully to the field, pushing the boundaries of knowledge while mentoring students and young researchers in marine engineering.

Research Focus:

Wang Guojun’s research focuses on the structural design and load analysis of marine engineering structures operating in extreme environments, particularly in Arctic regions. His primary areas of investigation include the anti-ice design of offshore energy structures, such as foundations for wind turbines and photovoltaic systems in icy waters. Wang is particularly interested in understanding ice mechanics and the loads exerted on polar navigation vessels, semi-submersible drilling platforms, and other marine equipment. He employs advanced modeling techniques and field observations to develop innovative solutions for mitigating ice-related risks. His ongoing projects, supported by significant grants, aim to enhance the safety and efficiency of offshore installations. Wang’s work contributes to the broader goal of sustainable development in renewable energy, addressing critical challenges posed by climate change and the unique conditions of polar environments. His dedication to advancing knowledge in ice mechanics and load testing methodologies positions him as a key contributor in his field.

Publications Top Notes:

  1. Research and application of ice force monitoring technology for upright structures based on distributed fiber optic sensors 📊
  2. Numerical Simulation of Extreme Ice Loads on Complex Pile Legs of Offshore Substation Structures 📈
  3. Amplitude of local ice pressure in upright wide structures 📏
  4. Ice-Induced Vibrational Response of Single-Pile Offshore Wind-Turbine Foundations 🌊
  5. Investigating the Ice-Induced Fatigue Damage of Offshore Structures by Field Observations 🔍
  6. Study on Ice Vibration Control for Offshore Single Pile Wind Turbine Foundation 🎡
  7. Study on the Dynamic Ice Load of Offshore Wind Turbines with Installed Ice-Breaking Cones in Cold Regions 🌨️
  8. Distribution Analysis of Local Ice Pressures in the Indentation Test at Various Velocities 🧊
  9. Study of ice load on wind turbine foundation cone based on measured data 📑
  10. Ice-induced vibration and fatigue analysis on monopile foundation of offshore wind turbine 🌀

Conclusion:

Wang Guojun is a formidable candidate for the Best Researcher Award due to his focused expertise, innovative research approaches, and successful project funding. By addressing areas for improvement, particularly in enhancing the impact and visibility of his research, he could further solidify his contributions to the field of marine engineering and renewable energy in extreme environments.