Ana Margarida Bento | Risk and Resilience Engineering | Best Researcher Award

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Dr Ana Margarida Bento | Risk and Resilience Engineering | Best Researcher Award

Postdoctoral Researcher, Interdisciplinary Centre of Marine and Environmental Research (CIIMAR), Portugal

Ana Margarida Bento is a dedicated researcher in Hydraulic and Water Resources Engineering, specializing in bridge scour risk assessment and coastal protection. She earned her Ph.D. from the University of Porto, Portugal, focusing on risk-based analysis for scour prediction. Currently, she is a Postdoctoral Researcher at CIIMAR, working on projects such as BriSK and POSEIDON, aiming to enhance scour risk management in a changing climate. With multiple research scholarships and international collaborations, she has contributed significantly to the field of hydraulic engineering. Her expertise spans numerical modeling, experimental analysis, and risk-based methodologies. Ana has authored influential publications in top-tier journals, shaping the understanding of scour evolution around bridge piers and hydraulic infrastructures. She actively collaborates with global research institutions, strengthening her impact on sustainable water resource management and engineering resilience.

PROFESSIONAL PROFILE

Google Scholar

Scopus

STRENGTHS FOR THE AWARD

  1. Extensive Research in Hydraulic and Water Resources Engineering:
    Ana Margarida Bento has made significant contributions to bridge scour prediction, hydraulic infrastructures, and risk-based methodologies, as evidenced by her publications and research projects.

  2. High Citation Impact and Published Research:

    • Multiple publications in high-impact journals, including Engineering Structures, Journal of Hydraulic Engineering, and Ocean Engineering.
    • Citations on crucial topics such as scour analysis, bridge failure mechanisms, and hydraulic flow predictions.
    • Recent publications in 2024 demonstrate active and ongoing contributions to her field.

  3. Diverse and International Research Experience:

    • Worked with institutions across Portugal, Norway, Italy, and Brazil.
    • Postdoctoral research in multiple funded projects (BriSK, POSEIDON, AQUABREAK), showcasing strong international collaboration.
    • Experience with prestigious organizations such as CIIMAR, ISISE, and the University of Minho.

  4. Strong Funding and Project Management Background:

    • Secured funding from renowned organizations like the Foundation for Science and Technology, National Innovation Agency, and EEA Grants Portugal.
    • Leadership in high-profile research initiatives such as AQUABREAK, BriSK, and POSEIDON.

  5. Interdisciplinary Contributions:

    • Research spans bridge scour risk, coastal protection, machine learning applications in hydraulic engineering, and nature-based solutions for water resource management.
    • Recent work on AI-driven predictive models for scour depth further strengthens her research impact.

AREAS FOR THE IMPROVEMENTS

  1. Increased Industry Collaboration:

    • While her research is robust in academia, further collaboration with industry stakeholders in hydraulic infrastructure development could enhance real-world application impact.

  2. Broader Public Engagement and Outreach:

    • Increasing involvement in public policy recommendations, engineering guidelines, or outreach programs could expand the societal impact of her work.

  3. Higher Leadership in Research Consortia:

    • Leading multi-institutional research projects or securing personal research grants as a principal investigator would further elevate her status in the field.

EDUCATION 🎓

  • Ph.D. in Hydraulic and Water Resources Engineering (2016–2021)
    University of Porto, Portugal – Research focused on risk-based analysis of bridge scour prediction.
  • Master’s in Hydraulic Engineering (2015–2016)
    University of Porto, Portugal – Studied hydrodynamics and flow features in bridge piers.
  • Master’s in Water Resources Engineering (2014–2015)
    University of Porto, Portugal – Conducted numerical and experimental research on bridge scour.
  • International Internship (2017)
    Turin Polytechnic, Italy – Participated in Erasmus+ PEP-UP program, focusing on industry-related research.
  • International Internship (2013)
    FAACZ, Brazil – Worked on irrigation dam construction through IAESTE exchange program.

EXPERIENCE 🏗️

  • Postdoctoral Researcher, CIIMAR – University of Porto (2025–Present)
    Leading the BriSK project on climate-based bridge scour risk analysis.
  • Postdoctoral Researcher, CIIMAR – University of Porto (2022–2025)
    Conducted research on scour prediction and protection under the POSEIDON project.
  • Postdoctoral Researcher, University of Minho (2022)
    Developed a smart port infrastructure management system.
  • Postdoctoral Researcher, University of Minho (2021–2022)
    Worked on InfraCrit project for critical infrastructure management.
  • Ph.D. Researcher, LNEC & FEUP (2016–2021)
    Specialized in risk-based analysis of bridge scour.
  • Research Intern, Instituto Superior Técnico (2013)
    Collaborated on NetFluv project, analyzing fluvial hydraulics.

AWARDS & HONORS 🏆

  • Best Researcher Award in Hydraulic Engineering (2023)
  • EEA Grants Portugal Award for Coastal Protection Research (2023)
  • Foundation for Science and Technology Scholarship (2016–2021)
  • Erasmus+ International Research Exchange Fellowship (2017)
  • IAESTE International Research Collaboration Recognition (2013)
  • Scientific Excellence Award, University of Porto (2020)
  • Highly Cited Author in Engineering Structures (2020)

RESEARCH FOCUS 🔬

Ana Margarida Bento’s research revolves around hydraulic engineering, bridge scour prediction, and coastal protection. She applies risk-based methodologies, numerical modeling, and experimental techniques to improve the resilience of hydraulic structures. Her work explores scour evolution, erosion mechanisms, and protection measures for bridges and offshore structures. Currently, she focuses on climate-driven risk assessment and nature-based solutions for sustainable infrastructure. Ana also investigates machine-learning applications in hydraulic engineering and contributes to advancing coastal defense systems. Her multidisciplinary approach integrates environmental sustainability with engineering innovation, ensuring long-term safety and efficiency in water resource management.

PUBLICATION TOP NOTES 📚

  • Risk-based methodology for scour analysis at bridge foundations 🏗️
  • Direct estimate of the breach hydrograph of an overtopped earth dam 🌊
  • Characterization of the scour cavity evolution around a complex bridge pier 🔍
  • A comprehensive review on scour and scour protections for offshore structures
  • Advanced characterization techniques of scour around a bridge pier model 🛠️
  • Scour development around an oblong bridge pier: Numerical and experimental study 💡
  • Image-based techniques for scour analysis in laboratory settings 📷
  • Experimental characterization of the flow field around oblong bridge piers 🌊
  • Failure by overtopping of earth dams: Hydrograph quantification 🏞️
  • Physics-based and machine-learning models for scour depth prediction 🤖
  • Improved assessment of maximum streamflow for risk management 🚰
  • A novel and simple passive absorption system for wave flumes 🌊
  • Characterization of dam breaching following overtopping 🏗️
  • Fluid–soil–structure interactions in semi-buried tanks under seismic conditions 🌍
  • Assessment of scour risk in hydraulic infrastructures: A bridge case study 🌉

CONCLUSION

Ana Margarida Bento is a highly qualified candidate for the Best Researcher Award in Hydraulic and Water Resources Engineering. Her extensive research output, international collaborations, and leadership in critical research projects make her a strong contender. By expanding her industry ties and taking on more leadership roles, she can further solidify her position as a global expert in hydraulic engineering and bridge scour prediction.

CHEONG, TAE SUNG – Disaster Risk Management – Best Researcher Award

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CHEONG, TAE SUNG - Disaster Risk Management - Best Researcher Award

National Disaster Management Institute - South Korea

AUTHOR PROFILE

SCOPUS

CHAIRMAN OF THE KOREA IPCC PROFESSIONAL COMMITTEE:

CHEONG, TAE SUNG serves as the Chairman of the Korea IPCC Professional Committee (K-IPCC), playing a pivotal role in shaping climate change policies and strategies in Korea. His leadership and expertise are crucial in guiding the committee’s work and ensuring impactful contributions to the global climate change discourse.

COORDINATING LEAD AUTHOR AND RESEARCH CONTRIBUTOR:

As the Coordinating Lead Author of Chapter 10 (Asia) in the IPCC WGII AR6 and Lead Author of Chapter 9 in the IPCC SREX Report, CHEONG contributes significantly to the understanding of climate change impacts and adaptation strategies. His work informs global climate policies and enhances scientific knowledge on climate resilience and sustainability.

MEMBER OF NATIONAL AND INTERNATIONAL COMMITTEES:

CHEONG is an influential member of several prestigious committees, including the Presidential Commission on Carbon Neutrality and Green Growth, the Crisis Management Manual Committee, and the Pre-disaster Impact Review Committee. His involvement ensures that climate and disaster management policies are robust, scientifically sound, and effective in mitigating risks.

AWARD-WINNING RESEARCHER AND CONTRIBUTOR:

CHEONG has received numerous awards for his outstanding contributions to disaster risk management, climate change research, and public administration. Notable recognitions include the Outstanding Researcher Award of the National Disaster Management Institute, the Ministry of Environment Award for IPCC work, and the Korean Society of Civil Engineers Award for Outstanding Research Paper.

EDITOR AND DIRECTOR IN PROFESSIONAL JOURNALS:

CHEONG serves as Editor in Chief of the Journal of Disaster Science and Management and holds editorial positions in renowned journals such as Water Resources Research, the Journal of Hydraulics, and the Journal of Hydroinformatics. His editorial roles ensure the dissemination of high-quality research and advancements in disaster science and water resource management.

DIRECTOR AND SENIOR RESEARCH OFFICER:

As the Director on the Climate Change Adaptation and Disaster Risk Reduction Division of the Korean Society of Hazard Mitigation, and Senior Research Officer on the Disaster Risk Reduction Division at NEMA, Ulsan, Korea, CHEONG leads critical initiatives to enhance disaster preparedness and resilience. His strategic direction strengthens national disaster management capabilities.

DISTINGUISHED AUTHOR AND PEER-REVIEWED RESEARCHER:

CHEONG has authored numerous influential publications in peer-reviewed journals, contributing significantly to the fields of flood risk management, climate change adaptation, and disaster resilience. His research outputs, including developments in early warning systems and comprehensive heat wave measures, provide valuable insights and practical solutions for managing environmental challenges.

NOTABLE PUBLICATION

Development of Flood Early Warning Frameworks for Small Streams in Korea
Authors: Cheong, T.-S., Choi, C., Ye, S.-J., Kim, S., Koo, K.-M.
Year: 2023
Journal: Water (Switzerland)

The development of design-width prediction equation by using 12 local governments data collected from small stream of Korea
Authors: Choi, C., Cheong, T.S.
Year: 2023
Journal: Journal of Korea Water Resources Association

Development of priority setting process for the small stream restoration projects using multi criteria decision analysis
Authors: Seo, J.P., Cho, W., Cheong, T.S.
Year: 2015
Journal: Journal of Hydroinformatics

Development of GIS-based disaster assessment system to reduce flood risks in urbanized creeks
Authors: Cheong, T.S., Felix, M.L.A., Jeong, S.M.
Year: 2014
Journal: Desalination and Water Treatment

Case studies
Authors: Murray, V., Mc Bean, G., Bhatt, M., Warner, K., Zodrow, I.
Year: 2012
Book: Managing the Risks of Extreme Events and Disasters to Advance Climate Change Adaptation: Special Report of the Intergovernmental Panel on Climate Change

Shadreck Mpanga – Protection of infrastructure – Best Researcher Award

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Shadreck Mpanga - Protection of infrastructure - Best Researcher Award

University of Zambia - Zambia

AUTHOR PROFILE

Scopus

EARLY ACADEMIC PURSUITS:

Shadreck Mpanga initiated his academic journey at Solwezi Secondary Technical School, Solwezi, where he completed his Grade 12 School Certificate in 1996. Excelling in subjects like English, Mathematics, Science, Biology, Technical Drawing, and Commerce, he achieved Division I.

PROFESSIONAL ENDEAVORS:

With a Bachelor's degree in Electrical & Electronic Engineering from the University of Zambia in 2004, Shadreck Mpanga ventured into the professional realm. He worked as an Electrical Engineer at Konkola Copper Mines Plc in Chingola, Zambia, from 2005 to 2008, focusing on Tailings Leach Plant & Electrical Power Distribution. Subsequently, he served as a Process Engineer at Zambia Metal Fabricators (ZAMEFA) Limited in Luanshya, Zambia, from 2008 to 2009. Since 2013, he has been contributing to academia as a Lecturer at the University of Zambia, School of Engineering, Department of Electrical and Electronic Engineering.

EDUCATION:

Shadreck Mpanga pursued a Master's degree (M.Eng.) in Electrical Engineering with a concentration in High Voltage and Insulation Technology at Hunan University, China, in 2013. His thesis delved into the theoretical and technical features of the dynamic loading of high voltage overhead transmission lines. Currently, he is engaged in a Ph.D. study in Electrical Engineering at the University of Zambia, focusing on High Voltage and Insulation Technology, specifically enhancing lightning protection systems for legacy buildings in Zambia.

CONTRIBUTIONS AND RESEARCH FOCUS:

As a Lecturer and Ph.D. student, Shadreck Mpanga's contributions extend to various research projects. Notably, he serves as the Principal Investigator for projects such as "Integration and coordination of earthing systems with lightning protection systems for various buildings in Zambia" and "Using artificial intelligence to determine lightning safety of buildings in Zambia." These initiatives underscore his commitment to advancing knowledge in the field of Electrical Engineering.

IMPACT AND INFLUENCE:

Shadreck Mpanga's impact is evident in his involvement in projects sponsored by reputable institutions such as the European Union and the Royal Academy of Engineering, UK. These projects focus on renewable energy, lightning protection, and adaptive education for engineering graduates, showcasing his influence in diverse areas.

ACADEMIC CITES:

As a Ph.D. student and Lecturer, Shadreck Mpanga's research has likely contributed to academic literature and garnered citations within the academic community. His publications and involvement in various research projects indicate a scholarly influence in his field.

LEGACY AND FUTURE CONTRIBUTIONS:

Shadreck Mpanga's legacy is evolving through his dual roles as an educator and researcher. His diverse experiences, from industry roles to academic positions, position him to contribute significantly to the future of Electrical and Electronic Engineering. As he progresses in his Ph.D. studies, his potential for leaving a lasting legacy in academia is promising.

NOTABLE PUBLICATION

Articulating the Threat of the Lightning Phenomenon in Zambia.  2021 (2)

Improved Parameters for Lightning Protection System Designs for Buildings in Zambia.  2022

Enhancing the widespread use of renewable energy resources in the Southern African region.  2016