J
Jeremy A. Sauer
Researcher at National Center for Atmospheric Research
Publications - 22
Citations - 397
Jeremy A. Sauer is an academic researcher from National Center for Atmospheric Research. The author has contributed to research in topics: Planetary boundary layer & Large eddy simulation. The author has an hindex of 7, co-authored 20 publications receiving 283 citations. Previous affiliations of Jeremy A. Sauer include Los Alamos National Laboratory.
Papers
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Journal ArticleDOI
Mapping methane concentrations from a controlled release experiment using the next generation airborne visible/infrared imaging spectrometer (AVIRIS-NG)
Andrew K. Thorpe,Andrew K. Thorpe,Christian Frankenberg,Andrew D. Aubrey,Dar A. Roberts,A.A. Nottrott,Thom Rahn,Jeremy A. Sauer,M. K. Dubey,Keeley R. Costigan,Caleb Arata,Andrea Steffke,S. Hills,C. E. Haselwimmer,D. Charlesworth,Chris Funk,Robert O. Green,S. Lundeen,Joseph W. Boardman,Michael L. Eastwood,Charles M. Sarture,Scott H. Nolte,Ian B. McCubbin,David R. Thompson,Joseph P. McFadden +24 more
TL;DR: In this article, the authors used the next generation Airborne VISible/Infrared Imaging Spectrometer (AVIRIS-NG) for detecting anthropogenic methane (CH 4 ) sources.
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Coupled mesoscale-LES modeling of a diurnal cycle during the CWEX-13 field campaign: From weather to boundary-layer eddies
TL;DR: In this article, a multiscale modeling of a diurnal cycle of real-world conditions is presented for the first time, validated using data from the CWEX-13 field experiment.
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Numerical Investigation of Aggregated Fuel Spatial Pattern Impacts on Fire Behavior
Russell A. Parsons,Rodman R. Linn,François Pimont,Chad M. Hoffman,Jeremy A. Sauer,Judith Winterkamp,Carolyn Hull Sieg,W. Matt Jolly +7 more
TL;DR: This paper explored the impacts of spatially aggregated fuel patterns on the mean and variability of stand-level fire behavior, and test sensitivity of these effects to wind and canopy cover, and proposed three hypotheses: aggregated spatial fuel patterns primarily affect fire behavior by increasing variability; this variability should increase with spatial scale of aggregation; and fire behavior sensitivity to spatial pattern effects should be more pronounced under moderate wind and fuel conditions.
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A numerical investigation of the interplay between fireline length, geometry, and rate of spread
TL;DR: In this article, a numerical atmospheric dynamics model HIGRAD and wildfire combustion physics model FIRETEC were used to simulate grass fires that were initiated with a finite length, straight ignition line in homogeneous fuels.
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A Large-Eddy Simulation Study of Atmospheric Boundary Layer Influence on Stratified Flows over Terrain
Jeremy A. Sauer,Domingo Muñoz-Esparza,Jesse M. Canfield,Keeley R. Costigan,Rodman R. Linn,Young-Joon Kim +5 more
TL;DR: In this article, the impact of atmospheric boundary layer (ABL) interactions with large-scale stably stratified flow over an isolated, two-dimensional hill is investigated using turbulence-resolving large-eddy simulations.