Guofeng Wu | Coastal Management | Best Researcher Award

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Dr. Guofeng Wu | Coastal Management | Best Researcher Award

Student | East China Normal University | China

Guofeng Wu is a dedicated doctoral candidate at East China Normal University, focusing on Physical Geography. She has a strong background in Geographic Information Science, having earned her bachelor’s degree from Tianjin Normal University. Guofeng’s research is primarily centered on multi-hazard risk management and simulation assessment in coastal cities, addressing the challenges posed by climate change.

Strengths for the Award 🏆

Dr. Guofeng Wu has demonstrated a remarkable commitment to advancing knowledge in multi-hazard risk management, particularly in coastal cities. Her research, particularly her papers on compound flooding due to sea level rise, land subsidence, and tropical cyclones, showcases a deep understanding of complex environmental challenges.

Education 🎓

Guofeng completed her Bachelor’s degree in Geographic Information Science at Tianjin Normal University from 2018 to 2022. She is currently pursuing her Ph.D. in Physical Geography at East China Normal University, where she is deepening her expertise in risk management strategies for coastal environments.

Experience 💼

As a researcher, Guofeng has authored two significant papers. The first, titled “Modelling the combined impact of sea level rise, land subsidence, and tropical cyclones in compound flooding of coastal cities,” was published in the SCI journal Ocean & Coastal Management. Her second paper, “Risk Assessment of Extreme Rainfall and Storm Surge Compound Flooding in Coastal Cities under Sea Level Rise Scenarios: A Case Study of Haikou City,” appeared in the Chinese core journal Tropical Geography. Guofeng is also leading two ongoing projects related to flooding hazards in typhoon-prone regions.

Research Interests 🔍

Guofeng’s research interests encompass multi-hazard risk management, particularly the interaction of tropical cyclones, storm surges, and sea-level rise. Her work aims to develop simulation assessments that improve understanding and preparedness for coastal cities facing these compounded threats.

Awards 🏆

Guofeng Wu is nominated for the Best Researcher Award at the Marine Scientist Awards. Her contributions to understanding compound flood risks significantly impact coastal resilience strategies, making her a strong candidate for recognition.

Publications 📚

  1. Wu, G., Liu, Q., Xu, H., & Wang, J. (2024). Modelling the combined impact of sea level rise, land subsidence, and tropical cyclones in compound flooding of coastal cities. Ocean & Coastal Management, 252, 107107. https://doi.org/10.1016/j.ocecoaman.2024.107107
  2. Wu Guofeng, Liu Qing, Xu Hanqing, Wei Xuchen, and Wang Jun. (2024). Risk Assessment of Extreme Rainfall and Storm Surge Compound Flooding in Coastal Cities under Sea Level Rise Scenarios: A Case Study of Haikou City. Tropical Geography, 44(6), 1025-1035. https://doi.org/10.13284/j.cnki.rddl.20230854

Conclusion 🌊

In conclusion, Guofeng Wu stands out as an exceptional candidate for the Best Researcher Award, exemplifying the qualities of a dedicated and impactful marine scientist. Her innovative research on multi-hazard risk management addresses pressing environmental challenges and contributes significantly to the field of marine science. By continuing to enhance her collaborative efforts and public engagement, she is poised to make even more substantial contributions to the scientific community and society at large. Recognizing her with this award would not only honor her accomplishments but also encourage the advancement of critical research in marine science.

Taeksang Kim | Coastal Management | Best Researcher Award

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Mr. Taeksang Kim | Coastal Management | Best Researcher Award

PhD Candidate | University of Michigan | United States

Taeksang Kim received his bachelor’s degree in Civil and Environmental Engineering from Seoul National University in 2015 and his master’s in the same field from the same university in 2017. He is currently pursuing a PhD in Civil and Environmental Engineering at the University of Michigan. Taeksang has professional experience as a site engineer at Daewoo E&C, contributing to significant projects like the Al-Faw breakwater in Iraq. His research focuses on hydraulic and coastal engineering, particularly safety design to prevent damage from natural events. He has published peer-reviewed papers, presented at international conferences, and received several scholarships and fellowships.

Profile

Scholar

Education 🎓

  • Ph.D. in Civil and Environmental Engineering, University of Michigan, Ongoing.
    • Dual degree in Scientific Computing.
    • Advisor: Jeremy Bricker.
    • GPA: 3.90 / 4.00.
  • M.S. in Civil and Environmental Engineering, Seoul National University, Feb 2017.
    • Thesis: “Determination of the Optimal Width of a Breakwater Caisson by Reliability-Based Design Optimization.”
    • Advisor: Kyung-Duck Suh.
    • GPA: 4.13 / 4.30.
  • B.S. in Civil and Environmental Engineering, Seoul National University, Feb 2015.
    • Graduated Cum Laude.
    • GPA: 3.72 / 4.30.

Experience 💼

Ph.D. Candidate, University of Michigan (2021-Present).

Research Assistant, Engineering Research Institute, Seoul National University (2019-2020).

Site Engineer, Daewoo E&C (2017-2018).

Research Interests 🔬

Taeksang Kim’s research interests lie in hydraulic and coastal engineering, focusing on nappe flow, scour depth estimation, dam-break waves, and computational fluid dynamics. His work aims to enhance safety designs to mitigate damage from natural events.

Awards 🏆

Ph.D. Scholarship, Fellowship awarded by the University of Michigan, Winter 2021.

Master’s Scholarship, Research Assistant Scholarship awarded by BrainKorea21 PLUS, 2016.

National Need-Based Scholarship, awarded by Seoul National University, Fall 2015.

National Scholarship for Science and Engineering, awarded by Korea Student Aid Foundation, 2013-2014.

Superior Academic Performance Award, awarded by Seoul National University, 2009.

Publications📚

Journal Articles:

Kim, T., Malherbe, J. N., Shimpalee, S., & Bricker, J. D. (2024). Sub-Nappe Air Cavity Pressure and Cavity Water Depth during Caisson Breakwater Overtopping by a Tsunami. Journal of Marine Science and Engineering, 12(7), 1135. https://doi.org/10.3390/jmse12071135

Zou, P., Kim, T., Bricker, J. D., & Uijttewaal, W. S. (2023). Assessment of Interfacial Turbulence Treatment Models for Free Surface Flows. Journal of Hydraulic Research, 61(5), 651-667. https://doi.org/10.1080/00221686.2023.2246925

Conference Papers:

Kim, T., Malherbe, J., Shimpalee, S., & Bricker, J. (2022). SUB-NAPPE AIR CAVITY PRESSURE DURING OVERFLOW OF A VERTICAL STRUCTURE. Coastal Engineering Proceedings, (37), 4-4. https://doi.org/10.9753/icce.v37.papers.4

Jayaratne, R., Balasubramaniam, N., Kim, T., & Bricker, J. (2022). FAILURE OF SEAWALLS DUE TO TSUNAMI-INDUCED SCOUR. Coastal Engineering Proceedings, (37), 72-72. https://doi.org/10.9753/icce.v37.structures.72

Dissertation:

Kim, T. S. (2017). Determination of Optimal Width of Breakwater Caisson by Reliability-Based Design Optimization. Seoul National University Graduate School, Seoul. Link