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Infrastructure design and environmental impact assessments in coastal/oceanic, riverine, estuarine and atmospheric environments often rely on theoretical models. However, these models often fail to accurately predict the complex mechanics of turbulent flows, infrastructure-human interaction, nutrient cycles, sediment bed, heat/mass transfer, vegetation, and other factors. Often, these state-of-the-art models fail to accurately predict the complex mechanics of interaction among turbulent flows, obstacles, heat/mass transfer, the sediment bed, contaminants, nutrient cycles, and the vegetation and species. On one hand, many of these models were built in the past, using limited data and crude approximations due to existing knowledge gaps. On the other hand, we live in the new era of improved computational capabilities, advances in high-performance computing, numerical and experimental methods and data-driven techniques, which give us for the first-time broader access to larger and better data sets and analysis tools. In this new era, it is urgent that we rethink the synergy between natural turbulent fluid flow, human activities, and engineering solutions. This paradigm shift will lead towards development of new models, methodologies, and technology to tackle practical engineering problems and address societal challenges.
My research takes a first step towards this direction by following two central themes: (i) bridging existing knowledge gaps related to fundamental environmental fluid mechanics, costal and offshore processes/engineering, coastal hazards, atmospheric/climate, sustainable infrastructure design/planning and environmental/geophysical systems, and (ii) developing, applying, and improving models and technologies for analysis and design of sustainable practical engineering solutions.
I am a PhD graduate from the Department of Civil and Environmental Engineering at University of Illinois at Urbana-Champaign. During my PhD, I worked with Professor Marcelo H. García (M.T. Geoffrey Yeh Endowed Chair in Civil Engineering and Director of the Ven Te Chow Hydrosystems Laboratory) and Professor Paul Fischer (Blue Waters Professor in Computer Science and Mechanical Science and Engineering). My research interests are in the general area of Fluid Mechanics and particularly in Computational Fluid Dynamics, with possible Coastal, Hydraulic, Environmental, Atmospheric, Mechanical, , or other interdisciplinary applications. My PhD work was related to the study of Oscillatory Boundary Layer flows and the analysis of turbulent flow structures and characteristics of temporally accelerated Boundary Layer flows. Special attention was given to the implication of turbulent flow on bed shear stress and sediment transport in coastal applications.
My alma mater is Democritus University of Thrace (Xanthi-Greece), where I earned my Diploma in Civil Engineering. After my graduation, I continued my graduate studies in DUTH, earning two consecutive MSc degrees, the first one in “Hydraulics Engineering” and the second one in “Environmental Engineering and Science”.
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GEOPHYSICAL RESEARCH LETTERSno. 6 (2024): n/a-n/a
Caleb Phillips,Lindsay M. Sheridan,Patrick Conry,Dimitrios K. Fytanidis,Dmitry Duplyakin,Sagi Zisman,Nicolas Duboc,Matt Nelson,Rao Kotamarthi,Rod Linn, Marc Broersma, Timo Spijkerboer,
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Bulletin of the American Physical Society (2020)
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38th IAHR World Congress - "Water: Connecting the World" (2019)
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