Poster Session 1 |
| | Monday Poster Session |
| | P1.1 | Lagrangian characterization of terrain induced turbulence based on LIDAR observations: flow characteristics and airplane approaches at Hong Kong International Airport (HKIA)
Wenbo Tang, Arizona State University, Tempe, AZ; and G. Haller and P. W. Chan |
| | P1.2 | The use of an instrumented aircraft in studying the characteristics of terrain-disrupted airflow at the Hong Kong International Airport (HKIA)
P. W. Chan, Hong Kong Observatory, Hong Kong, China |
| | P1.3 | The dynamic diagnosis on easterwards moving characteristics and developing mechanism of two Tibetan Plateau Vortex processes
Guangbi He, China Meteorological Academy, Chengdu, SiChuan, China |
| | P1.4 | Characteristics of energy transfer and micrometeorology in the atmosphere surface layer over the alpine meadow at Litang on eastern slop of the Tibetan Plateau
Xingbing Zhao, Institute of Plateau Meteorology, China Meteorology Administration, Chengdu, China; and Y. Li |
| | P1.5 | Characteristics of the precipitation over the eastern edge of the Tibetan Plateau
Yueqing Li, Chengdu Institute of Plateau Meteorology, Chengdu, Sichuan, China |
| | P1.6 | A Climatology of Snow-to-Liquid Ratio Across The Burlington, Vermont County Warning Area
Conor Lahiff, NOAA/NWSFO Burlington, VT, South Burlington, VT |
| | P1.7 | Quantifying lake effect precipitation in the Great Salt Lake Basin
Kristen N. Yeager, University of Utah, Salt Lake City, UT; and J. Steenburgh, T. I. Alcott, and N. Laird |
| | P1.8 | Orographic processes in Great Salt Lake-Effect snowstorms
Trevor I. Alcott, University of Utah, Salt Lake City, UT; and W. J. Steenburgh |
| | P1.9 | Quantitative comparison of 3-D operational radar observations and model output over the Oregon Cascades
Jeffrey Cunningham, North Carolina State University, Raleigh, NC; and S. E. Yuter and B. A. Colle |
| | P1.10 | Cold air damming impacts on snowfall distribution along the eastern Wind River Mountains
Christopher N. Jones, NOAA/NWS, Riverton, WY; and B. E. McDonald and D. A. Wesley |
| | P1.11 | An intense spring snowfall event over the northern Colorado mountains
Michael P. Meyers, NOAA/NWS, Grand Junction, CO; and P. Frisbie, J. D. Colton, M. Aleksa, and A. Strautins |
| | P1.12 | Upper level trough with tropopause dynamic anomaly from South on Venetian Alps. Difficulties for unsettled weather forecast between two sectors: Dolomites and Pre-Alps
Thierry Robert-Luciani Sr., Agenzia Regionale per la Prevenzione e la Protezione Ambientale, Arabba, Italy |
| | P1.13 | Chilean winter precipitation: an exercise in interpolating sparse data onto a national grid
Dominique F. Bastine, U.S. Naval Academy, Annapolis, MD; and B. S. Barrett |
| | P1.14 | A numerical study of deep three-dimensional mountain waves over the Southern Andes and Drake Passage
Qingfang Jiang, UCAR Visiting Scientist, NRL, Monterey, CA; and J. Doyle, R. B. Smith, and S. D. Eckermann |
| | P1.15 | Characteristics of flow upstream of the central Chilean Andes: an examination of radiosonde data from 2007
Caroline P. Barlow, U.S. Naval Academy, Annapolis, MD; and B. S. Barrett |
| | P1.16 | A Tropical Rainfall Measuring Mission (TRMM) rainfall climatology west of the Chilean Andes
Bradford S. Barrett, U.S. Naval Academy, Annapolis, MD |
| | P1.17 | Development of a new mountain drag parametrization scheme
Helen Wells, Met Office, Exeter, United Kingdom; and S. Vosper |
| | P1.18 | A simple model for the convective boundary layer development in a mountain valley
Dino Zardi, Univ. of Trento, Trento, Italy |
| | P1.20 | Beyond Long's solution: exploring the rotating and nonhydrostatic mountain wave regimes
Kevin C. Viner, National Research Council, Monterey, CA; and C. C. Epifanio and J. D. Doyle |
| | | P1.19 has been moved. New number 4.6A
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| | P1.21 | Effects of surface heat fluxes on downslope wind storms with elevated inversions
Eric D. Skyllingstad, Oregon State University, Corvallis, OR; and C. M. Smith |
| | P1.22 | The complex bora flow in the lee of southern Velebit
Ivana Stiperski, Meteorological and Hydrological Service, Zagreb, Croatia; and B. Ivancan-Picek and V. Grubisic |
| | P1.23 | Comparison of two windstorm events during the Sierra Rotors Project and Terrain-induced Rotor Experiment 
Brian J. Billings, National Research Council, Monterey, CA; and J. D. Doyle |
| | P1.24 | Preliminary analysis of a strong mid-Adriatic bora event
Kristian Horvath, Meteorological and Hydrological Service, Zagreb, Croatia; and Z. Vecenaj and B. Grisogono |
| | P1.25 | Climatology of bora wind derived from high-frequency wind measurements
Zeljko Vecenaj, University of Zagreb, Zagreb, Croatia; and D. Belusic and B. Grisogono |
| | P1.26 | Enhancement of Santa Ana Winds due to wildfire smoke
Yongqiang Liu, USDA Forest Service, Athens, GA |
| | P1.27 | An overview of the California State University- Mobile Atmospheric Profiling System (CSU-MAPS) for research and education in mountain meteorology
Craig B. Clements, San Jose State Univ., San Jose, CA; and A. J. Oliphant |
|  | P1.28 | Dependence of variational 2-m temperature analyses on synoptic situation and underlying terrain
Daniel Tyndall, University of Utah, Salt Lake City, UT; and J. Horel and T. Haiden |
| | P1.28A | Mobile radar projects in Colorado mountains
Steven Vasiloff, NOAA/NSSL, Norman, OK; and K. Howard, D. J. Gochis, J. Busto, G. Romine, K. Friedrich, M. Meyers, and D. Kann |
| | P1.29 | Extratropical control of monsoonal surges into the northern Great Basin
Andrew Joros, DRI, Reno, NV; and J. T. Abatzoglou, J. Favors, B. Tan, and M. L. Kaplan |
| | P1.30 | Precipitation efficiency of the Colorado mountains under warmed climate
Rita Nogherotto, University of Vienna, Vienna, Austria; and V. Grubisic, R. M. Rasmussen, C. Liu, K. Ikeda, D. Gochis, D. Yates, F. Chen, M. Tewari, M. Barlage, J. Dudhia, W. Yu, K. Miller, K. Arsenault, G. Thompson, and E. Gutmann |
| | P1.31 | An overview of barrier winds off southeastern Greenland during the Greenland Flow Distortion experiment
G. N. Petersen, University of East Anglia, Norwich, Norfolk, United Kingdom; and I. A. Renfrew and G. W. K. Moore |
| | P1.32 | Comparative Study of ARIMA, Artificial Neural Network and Wavelet Transform for Electricity Daily Demand Forecasting
Mahdi Zolfaghari, WHOI, Tehran, Iran; and H. Sadeghi |
| | P1.33 | Atmospheric transport modelling in mountainous regions using very high resolution meteorological simulations
Delia Arnold, University of Natural Resources and Applied Life Sciences, Vienna, Austria; and I. Schicker and P. Seibert |
| | P1.34 | Factors affecting wind power production in mountainous terrain
Mark Zagar, Vestas Wind Systems, A/S, Randers, Denmark; and A. Hald Collins, L. Gulstad, S. Hahn, Y. Hristov, C. H. Hu, T. Maric, S. Holm Mogensen, and G. S. Oxley |
| | P1.35 | The WINDEX measurement experiment
Kristian Horvath, Meteorological and Hydrological Service, Zagreb, Croatia; and Z. Vecenaj, D. Tomsic, L. Horvath, B. Grisogono, A. Bajic, Z. Zibrat, B. Ivancan-Picek, N. Karadza, A. Bacan, and D. Koracin |
| | P1.36 | Lateral acceleration zones in complex terrain
Doug Wesley, Compass Wind, LLC, Denver, CO |
| | P1.37 | Wind forecasting challenges in the Canadian Arctic due to terrain effects
Pieter Spyker, EC, Edmonton, AB, Canada; and D. Schmidt |