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Wei Yu
Researcher at National Center for Atmospheric Research
Publications - 18
Citations - 1765
Wei Yu is an academic researcher from National Center for Atmospheric Research. The author has contributed to research in topics: Weather Research and Forecasting Model & Precipitation. The author has an hindex of 10, co-authored 18 publications receiving 1288 citations. Previous affiliations of Wei Yu include University Corporation for Atmospheric Research.
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Journal ArticleDOI
The Weather Research and Forecasting Model: Overview, System Efforts, and Future Directions
Jordan G. Powers,Joseph B. Klemp,William C. Skamarock,Christopher A. Davis,Jimy Dudhia,David O. Gill,Janice L. Coen,David Gochis,Ravan Ahmadov,Steven E. Peckham,Georg Grell,John Michalakes,Samuel Trahan,Stanley G. Benjamin,Curtis R. Alexander,Geoffrey J. DiMego,Wei Wang,Craig S. Schwartz,Glen S. Romine,Zhiquan Liu,Chris Snyder,Fei Chen,Michael Barlage,Wei Yu,Michael G. Duda +24 more
TL;DR: The Weather Research and Forecasting (WRF) Model as mentioned in this paper has become one of the world's most widely used numerical weather prediction models, and it has been widely used for both research and operational purposes.
Journal ArticleDOI
High resolution coupled climate-runoff simulations of seasonal snowfall over Colorado: A process study of current and warmer climate
Roy Rasmussen,Changhai Liu,Kyoko Ikeda,David Gochis,David Yates,Fei Chen,Mukul Tewari,Michael Barlage,Jimy Dudhia,Wei Yu,Kathleen A. Miller,Kristi R. Arsenault,Vanda Grubišić,Gregory Thompson,Ethan Gutmann +14 more
TL;DR: In this article, a coupled high-resolution climate-runoff model was used to simulate the annual snowfall in the Colorado Headwaters region and the results showed that the proper spatial and temporal depiction of snowfall adequate for water resource and climate change purposes can be achieved with the appropriate choice of model grid spacing and parameterizations.
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The Great Colorado Flood of September 2013
David Gochis,Russ S. Schumacher,Katja Friedrich,Nolan J. Doesken,Matt Kelsch,Juanzhen Sun,Kyoko Ikeda,Daniel T. Lindsey,Andrew W. Wood,Brenda Dolan,Sergey Y. Matrosov,Andrew J. Newman,Kelly Mahoney,Steven A. Rutledge,Richard H. Johnson,Paul A. Kucera,Pat Kennedy,Daniel Sempere-Torres,Matthias Steiner,Rita D. Roberts,James W. Wilson,Wei Yu,V. Chandrasekar,Roy Rasmussen,Amanda R. S. Anderson,Barbara G. Brown +25 more
TL;DR: In the second week of September 2013, a seasonally uncharacteristic weather pattern stalled over the Rocky Mountain Front Range region of northern Colorado bringing with it copious amounts of moisture from the Gulf of Mexico, Caribbean Sea, and the tropical eastern Pacific Ocean as mentioned in this paper.
Journal ArticleDOI
Fully coupled atmosphere-hydrology simulations for the central Mediterranean: Impact of enhanced hydrological parameterization for short and long time scales
TL;DR: In this paper, a fully coupled atmosphere-hydrology model system was developed by integrating a new set of hydrologic physics parameterizations accounting for lateral water flow occurring at the land surface, where output from the fully-coupled WRF/WRF-Hydro was compared to that provided by original WRF model.