Dataset Available

Coupled wave-circulation results from the SWAN+ADCIRC models to analyze errors in forecast storm track during Hurricane Arthur (2014)

Authors: Cyriac, Rosemary;Dietrich, J.Casey
Published On: Apr 20 2018 21:43 UTC
DOI: https://doi.org/10.7266/N7XK8D30
UDI: R4.x265.000:0057
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No. of Files: 643

File Size: 21.97 GB

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netCDF, properties, xml, html, pdf, txt, f, c, h, hcray, hgeneric, in, f90, inc, edt, ftn, ftn90, g95, m, nml, pl, bat, cmd, mod, o, guess, pc

Project Information

Funded By:
Gulf of Mexico Research Initiative

Funding Cycle:
RFP-IV

Research Group:
Consortium for Advanced Research on Transport of Hydrocarbon in the Environment II (CARTHE II)

Point of Contact

J. Casey Dietrich
North Carolina State University / Department of Civil, Construction, & Environmental Engineering
jcdietrich@ncsu.edu

Data Collection Period
2014-07-01
to
2014-07-05
Theme keywords

Track Uncertainties, Forecast Errors, GAHM, HWind, Hurricane Arthur, Storm Surge

ISO 19115-2 Metadata
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Abstract:

These are results of the Simulating WAves Nearshore (SWAN) model and the ADvanced CIRCulation (ADCIRC) model simulations to assess the wind, wave and surge impacts of Hurricane Arthur (2014) along the North Carolina (NC) coast. The storm field is constructed by ADCIRC using the parametric Generalized Asymmetric Holland Model (GAHM) forced by modified National Hurricane Center (NHC) advisories. This dataset contain results based on scenarios designed to examine the effects of errors associated with forecast storm track. In these scenarios, we replace the storm strength parameters from the NHC forecast guidance with the same parameters derived from post storm HWind data. The time period of interest is July 1-5 2014, when Hurricane Arthur made landfall in NC.

Suggested Citation:

Cyriac, Rosemary;Dietrich, J.Casey. 2018. Coupled wave-circulation results from the SWAN+ADCIRC models to analyze errors in forecast storm track during Hurricane Arthur (2014). Distributed by: GRIIDC, Harte Research Institute, Texas A&M University–Corpus Christi. doi:10.7266/N7XK8D30

Publications:

Cyriac, R., Dietrich, J. C., Fleming, J. G., Blanton, B. O., Kaiser, C., Dawson, C. N., & Luettich, R. A. (2018). Variability in Coastal Flooding predictions due to forecast errors during Hurricane Arthur. Coastal Engineering, 137, 59–78. doi:10.1016/j.coastaleng.2018.02.008

Purpose:

These simulations were performed to examine the effects of errors associated with forecast storm track on storm surge predictions.

Data Parameters and Units:

time (seconds since 2014-04-29 00:00:00), longitude (degrees East), latitude (degrees North), depth (m), sea surface height (SSH) above geoid (m), maximum SSH above geoid (m), time maximum SSH above geoid (s), vertically average e/w velocity (m/s^2), vertically average n/s velocity (m/s^2), eastward wind (m/s), northward wind (m/s), air pressure at sea level (meters of water), minimum air pressure at sea level (meters of water), time minimum air pressure at sea level (s), radiation stress gradient x-component (m^2/s^2), radiation stress gradient y-component (m^2/s^2), maximum radiation stress (m^2/s^2), time maximum radiation stress (s), maximum wind velocity (m/s), time maximum wind velocity (s), mean wave direction (degrees), maximum mean wave direction (degrees), significant wave height (m), maximum significant wave height (m), mean absolute wave period (s), maximum mean absolute wave period (s), smoothed peak period (s), maximum smoothed peak period (s)

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