Your search keyword '"Uhlhorn, Eric"' showing total 2 results

1. Loop Current Mixed Layer Energy Response to Hurricane Lili (2002). Part I: Observations.

Author

Uhlhorn, Eric W. and Shay, Lynn K.

Subjects

*HURRICANES, *CYCLONES, *OCEAN currents, *WIND power, *BAROCLINICITY, *OCEAN-atmosphere interaction

Abstract

The ocean mixed layer response to a tropical cyclone within and immediately adjacent to the Gulf of Mexico Loop Current is examined. In the first of a two-part study, a comprehensive set of temperature, salinity, and current profiles acquired from aircraft-deployed expendable probes is utilized to analyze the three-dimensional oceanic energy evolution in response to Hurricane Lili's (2002) passage. Mixed layer temperature analyses show that the Loop Current cooled <1°C in response to the storm, in contrast to typically observed larger decreases of 3°-5°C. Correspondingly, vertical current shear associated with mixed layer currents, which is responsible for entrainment mixing of cooler water, was found to be up to 50%% weaker, on average, than observed in previous studies within the directly forced region. The Loop Current, which separates the warmer, lighter Caribbean Subtropical Water from the cooler, heavier Gulf Common Water, was found to decrease in intensity by −0.18 ± 0.25 m s−1 over an approximately 10-day period within the mixed layer. Contrary to previous ocean response studies, which have assumed approximately horizontally homogeneous ocean structure prior to storm passage, a kinetic energy loss of 5.8 ± 6.4 kJ m−2, or approximately −1 wind stress-scaled energy unit, was observed. By examining near-surface currents derived from satellite altimetry data, the Loop Current is found to vary similarly in magnitude over such time scales, suggesting storm-generated energy is rapidly removed by the preexisting Loop Current. In a future study, the simulated mixed layer evolution to a Hurricane Lili-like storm within an idealized preexisting baroclinic current is analyzed to help understand the complex air-sea interaction and resulting energetic response. [ABSTRACT FROM AUTHOR]

Published

2012

2. Reconstruction of Hurricane Katrina's wind fields for storm surge and wave hindcasting

Author

Powell, Mark D., Murillo, Shirley, Dodge, Peter, Uhlhorn, Eric, Gamache, John, Cardone, Vince, Cox, Andrew, Otero, Sonia, Carrasco, Nick, Annane, Bachir, and Fleur, Russell St.

Subjects

*HURRICANE Katrina, 2005, *STORM surges, *STORM winds, *NATURAL disasters, *KINETIC energy of hurricanes, *DOPPLER radar, *RADIOMETERS

Abstract

Abstract: As the most costly US natural disaster in history, Hurricane Katrina fostered the IPET forensic study to better understand the event. All available observations from several hundred space-, land-, sea-, and aircraft-based measurement platforms were gathered and processed to a common framework for height, exposure, and averaging time, to produce a series of wind field snapshots at 3h intervals to depict the wind structure of Katrina when in the Gulf of Mexico. The stepped-frequency microwave radiometer was calibrated against GPS sondes to establish the upper range of the instrument and then used to determine the wind field in the storm''s core region in concert with airborne Doppler radar winds adjusted to the surface from near the top of the PBL (500m). The SFMR data were used to develop a method to estimate surface winds from 3km level reconnaissance aircraft observations, taking into consideration the observed azimuthal variation of the reduction factor. The “SFMR method” was used to adjust reconnaissance flight-level measurements to the surface in the core region when SFMR and Doppler winds were not available. A variety of coastal and inland mesonet data were employed, including portable towers deployed by Texas Tech University, University of Louisiana at Monroe, and the Florida Coastal Monitoring Program, as well as fixed mesonet stations from Louisiana State Universities Marine Consortium, University of Southern Mississippi, and Agricultural Networks from Louisiana, Mississippi, and Alabama, and the Coastal Estuarine Network of Alabama and Mississippi. Also included were land- (WSR-88D VAD and GBVTD, ASOS, Metar, LLWAS, HANDAR), space- (QuikScat, GOES cloud drift winds, WindSat), and marine- (GPS sondes, Buoys, C-MAN, ships) platforms. The wind fields serve as an analysis of record and were used to provide forcing for wave and storm surge models to produce hindcasts of water levels in the vicinity of flood control structures. [Copyright &y& Elsevier]

Published

2010