Jenero wins Witherspoon Graduate Fellowship

Ph.D. student Jenero Knowles was awarded the Witherspoon Graduate Fellowship from NC State’s Graduate School. The competitive one-year award is given to rising second-year graduate students who support Black communities at NC State and beyond, and selections were made by representatives from the Black Alumni Society and Graduate School. The award is named in honor of Dr. Augustus M. Witherspoon, who was the second Black graduate student to receive a doctorate from NC State and the first Black professor at the university.

Read more about the award on our department web site.

Congratulations to Jenero!

Alireza and Carter are NCSU Graduates

The CCHT celebrated the graduations of Alireza Gharagozlou and Carter Howe!

Alireza is now a coastal engineer with Taylor Engineering, Inc., and Carter will start his MS studies at Oregon State University. We also celebrated the graduation of Vega Sproul, who was an intern at the Coastal Studies Institute and then an undergraduate researcher with Dr. Beth Sciaudone. We are extremely proud of them!

From left to right: Alireza Gharagozlou, Casey Dietrich, Carter Howe, and Vega Sproul celebrate graduation.

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Johnathan wins Thomas Griffin Graduate Award

Ph.D. student Johnathan Woodruff won the Thomas Griffin Graduate Award from our Department of Civil, Construction, and Environmental Engineering. This award is one of several awards given to recognize excellence by our graduate students. The award includes a cash stipend.

Congratulations to Johnathan!

Johnathan Woodruff (right) celebrates his award, with Casey Dietrich.

Comparative Assessment of Total Water Levels for Coastal Military Facility Readiness and Resilience using Numerical Models

This project will compare numerical and empirical model predictions of coastal flooding at representative military facilities, with the goal of identifying the best practice for any facility. Unlike previous efforts, this project will consider a suite of open-source numerical models, which include all of the relevant physics that contribute to total water levels, such as sea level rise, tides, wind-induced surge, wave runup, and infragravity motions. Total water levels will be predicted for selected tropical cyclones and storm events with varying tracks and intensities, to represent the full range of possible forcings at each location. Locations include facilities on the U.S. Gulf and Atlantic coasts and in the Pacific Ocean to represent the full range of coastal geographies. Model performance will be compared with respect to inundation depths, timing and duration of flooding at each installation, as well as computational costs. This comparative assessment will inform the use of the most appropriate model in terms of resolved physics and computational effort for predictions of total water levels at any facility, thus enhancing military installation readiness and resilience, in direct support of DoD and ESTCP priorities.

JA Puleo, JC Dietrich, J Figlus, K Nederhoff, F Shi, SM Smallegan, CD Storlazzi, A van Dongeren. “Comparative assessment of total water levels for coastal military facility readiness and resilience using numerical models.” Department of Defense, Environmental Security Technology Certificate Program, 2022/04/13 to 2026/04/12, $2,177,000 (Dietrich: $346,000).