Poster Session 2 The Allwine-Doran Retrospective

Thursday, 27 January 2011: 9:45 AM-11:00 AM
Washington State Convention Center
Host: Special Symposium on Applications of Air Pollution Meteorology
Organizer:
Michael J. Brown, LANL, Systems Engineering & Integration, Los Alamos, NM

Papers:
830
Large-eddy simulation of pollutant plume dispersion in the urban canopy layer over 2D idealized street canyons
Chun-Ho Liu, Univ. of Hong Kong, Hong Kong, Hong Kong; and C. C. C. Wong

832.A
Source Term Model Implementation in a Multimedia Modeling System
James G. Droppo Jr., PNNL, Richland, WA; and M. Pelton

833
Investigating Dispersion of Buoyant Emissions from Low Level Sources in Urban Areas: Water Channel Modeling
Sam Pournazeri, Univ. of California, Riverside, CA; and Q. Jing, M. Princevac, and A. Venkatram
Manuscript (734.9 kB)

Handout (1.2 MB)

835
An Ad-Hoc PBL variability experiment over the Washington, DC area
Jeffery T. McQueen, NOAA/NWS/NCEP, Camp Springs, MD; and C. M. Tassone, M. Tsidulko, G. Manikin, G. DiMego, W. Lapenta, W. R. Pendergrass, C. A. Vogel, E. J. Welton, E. Joseph, M. Hicks, B. B. Demoz, R. M. Hoff, R. Delgado, J. Compton, and M. D. Simpson

836
Comparisons of a Lagrangian particle model for urban dispersion with laboratory experiments
Pasquale Franzese, George Mason Univ., Fairfax, VA; and L. Mortarini and P. Huq
Manuscript (195.5 kB)

837
Dispersion length scales within and above the urban canopy
Pablo Huq, Univ. of Delaware, Newark, DE; and P. Franzese
Manuscript (96.2 kB)

838
Modeling the urban circulation in the Salt Lake City area using the WRF urban canopy parameterization
Thomas Nehrkorn, AER, Lexington, MA; and J. Henderson, M. Leidner, M. Ellis, A. Maher, and J. Eluszkiewicz
Manuscript (1.9 MB)

839
Some plume dispersion highlights from JU03 and URBAN 2000
Dennis Finn, NOAA/ARL, Idaho Falls, ID; and K. L. Clawson, R. G. Carter, J. Rich, C. A. Biltoft, and M. J. Leach
Manuscript (502.4 kB)

Handout (5.9 MB)

841 has been moved. New paper number 4.6A

842
Building-Resolved Urban Dispersion Models Evaluated with MID05 Data
Julia E. Flaherty, PNNL, Richland, WA; and K. J. Allwine, M. J. Brown, W. J. Coirier, S. C. Ericson, O. Hansen, A. H. Huber, S. Kim, M. J. Leach, J. D. Mirocha, R. K. Newsom, G. Patnaik, and I. Senocak

Handout (195.5 kB)

843
Modeling atmospheric transport and dispersion of smoke from wildland fires
Sharon Zhong, Michigan State Univ., East Lansing, MI; and W. Lu, J. J. Charney, M. T. Kiefer, W. E. Heilman, R. P. Shadbolt, and X. Bian

Handout (2.3 MB)

844
The Canadian urban dispersion modeling (CUDM) system: Results from applications over Vancouver and Toronto
Pierre Bourgouin, MSC, Dorval, QC, Canada; and R. Hogue, N. Benbouta, N. Ek, J. P. Gauthier, G. Mercier, S. Trudel, and C. Zaganescu
Manuscript (1009.8 kB)

Handout (547.6 kB)

845
Development and evaluation of high resolution simulation tools to improve fire weather forecasts
Brian K. Lamb, Washington State Univ., Pullman, WA; and P. O'Keefe, K. Yedinak, G. Allwine, N. Wagenbrenner, P. Robichaud, J. Forthofer, B. Butler, and D. Finn

847
First results from the Swiss Slope Experiment at La Fouly (SELF) investigating the interaction of thermal circulation patterns and turbulent fluxes on steep slopes
Eric R. Pardyjak, University of Utah, Salt Lake City, UT; and D. Nadeau, C. Higgins, H. Huwald, R. Mage, and M. B. Parlange

- Indicates paper has been withdrawn from meeting
- Indicates an Award Winner