Los Alamos National Laboratory
Lab Home  |  Phone
 
 

QUIC  Atmospheric Dispersion Modeling System

QUIC Publications


Bagal, N.L., B. Singh, E.R. Pardyjak and M.J. Brown, 2004: Implementation of Rooftop Recirculation Parameterization into the QUIC Fast Response Urban Wind Model. 5th AMS Urb. Env. Symp., Vancouver, B.C., Canada. Paper 6.10.

Bagal, N.L., E.R. Pardyjak and M.J. Brown, 2004: Improved Upwind Cavity Parameterizations for a Fast Response Urban Wind Model. Symp. Planning, Nowcasting, and Forcasting Urb. Zone, 84th Annual Mtg. AMS, Seattle, WA. Paper P1.13.

Booth, T.M. and E.R. Pardyjak, 2006: Validation of a Data Assimilation Technique for an Urban Wind Model. 6th AMS Urb. Env. Symp., Atlanta, GA. Paper J4.9.

Bowker, G.E., S.G. Perry and D.K. Heist, 2004: A Comparison of Airflow Patterns from the QUIC Model and an Atmospheric Wind Tunnel for a Two-Dimensional Building Array and a Multi-City Block Region Neat the World Trade Center Site. 5th AMS Urb. Env. Symp., Vancouver, B.C., Canada. Paper J5.4.

Brambilla S., M. D. Williams, A. Gowardhan, D. Manca, and M. J. Brown, 2009: Shallow-water model for dense gas simulation in urban areas: a new approach. 8th AMS Urb. Env. Symp., Phoenix, AZ. Paper J14.6.

Brown, M.J., 2004: Urban Dispersion – Challenges for Fast Response Modeling. 5th AMS Urb. Env. Symp., Vancouver, B.C., Canada. Paper J5.1.

Brown, M.J., A. Gowardhan, S.U. Pol, P. Klein, M.A. Nelson, A. Huber, S. Kim, W. Coirer, and M. Freeman, 2006: Experimental and Model Computed Area-Averaged Vertical Profiles of Wind Speed for Evaluation of Mesoscale Urban Canopy Schemes. 6th AMS Urb. Env. Symp., Atlanta, GA. Paper J1.7.

Clark, J. and P. Klein, 2006: Implementation of a traffic-produced turbulence scheme  into the fast-response model QUIC. 6th AMS Urb. Env. Symp., Atlanta, GA. Paper 1.6.

Flaherty, J.E., K.J. Allwine, M. Brown, W.J. Coirier, S.C. Ericson, O.R. Hansen, A. Huber, S. Kim, M.J. Leach, J.D. Mirocha, R.K. Newsom, G. Patnaik, and I. Senocak, 2007: Evaluation study of building-resolved urban dispersion models. Seventh Symposium on the Urban Environment, San Diego, CA. Paper 10.2.

Gowardhan, A.A., M.J. Brown, D.S. DeCroix, and E.R. Pardyjak, 2005: Evaluation of the QUIC Pressure Solver: Comparison to Wind-Tunnel Measurements on Cubical Buildings. AMS Atmo. Sci. and Air Qual. Conf., San Francisco, CA. Paper 8.2.

Gowardhan, A.A. and E. Pardyjak, 2005: Testing of a Non-Iterative CFD Modeling Approach for an Urban Street Canyon. AMS Atmo. Sci. and Air Qual. Conf., San Francisco, CA. Paper 8.7.

Gowardhan, A.A., M.J. Brown, M.D. Williams and E. Pardyjak, 2006: Evaluation of the QUIC Urban Dispersion Model using the Salt Lake City URBAN 2000 Tracer Experiment Data - IOP 10. 6th AMS Urb. Env. Symp., Atlanta, GA. Paper J6.3.

Gowardhan, A.A., M.J. Brown, D.S. DeCroix, E. Pardyjak, and M.A. Nelson, 2006: Evaluation of the QUIC Pressure Solver Using Wind-Tunnel Data from Single and Multi-Building Experiments. 6th AMS Urb. Env. Symp., Atlanta, GA. Paper J8.2.

Gowardhan, A. A., M. J. Brown, E. R. Pardyjak, M. D. Williams, and M. A. Nelson, 2009: Evaluation of the QUIC wind and dispersion models using the Joint Urban 2003 Field Experiment. 8th AMS Urb. Env. Symp., Phoenix, AZ. Paper J19.4.

Hanna, S.R., M.J. Brown, F.E. Camelli, S.T. Chan, W.J. Coirier, O.R. Hansen, A.H. Huber, S. Kim, and R.M. Reynolds, 2006: Detailed simulations of atmospheric flow and dispersion in downtown Manhattan.  Bulletin Am. Meteorol. Soc., 87:12, 1713-1726.

Kastner-Klein, P. and J.V. Clark, 2004: Modeling of Flow and Dispersion Characteristics in Typical Urban Building Configurations with the Fast-Response Model QUIC. 5th AMS Urb. Env. Symp., Vancouver, B.C., Canada. Paper J5.2.

Nelson, M.A., B. Addepalli, F. Hornsby, A. A. Gowardhan, E. Pardyjak, and M. J. Brown, 2008: Improvements to a Fast-Response Urban Wind Model. 15th Joint Conference on the Applications of Air Pollution Meteorology with the A&WMA, New Orleans, LA. Paper 5.2.

Nelson, M. A., M. D. Williams, D. Zajic, E. R. Pardyjak, and M. J. Brown, 2009: Evaluation of an Urban Vegetative Canopy Scheme and Impact on Plume Dispersion. 8th AMS Urb. Env. Symp., Phoenix, AZ. Paper JP6.4.

Pardyjak, E.R. and M.J. Brown, 2001: Evaluation of a Fast-Response Urban Wind Model-Comparison to Single-Building Wind Tunnel Data. Int. Soc. Environ. Hydraulics, Tempe, AZ.

Pardyjak, E.R. and M.J. Brown, 2002: Fast Response Modeling of two Building Street Canyon. 4th AMS Urb. Env. Symp., Norfolk, VA. Paper J1.4.

Pardyjak, E.R., M.J. Brown and N.L. Bagal, 2004: Improved Velocity Deficit Parameterizations for a Fast Response Urban Wind Model. Symp. Planning, Nowcasting, and Forcasting Urb. Zone, 84th Annual Mtg. AMS, Seattle, WA. Paper 7.4.

Pardyjak, E. R., U. N. Amatul, M. A. Nelson, and M. J. Brown, 2009: Development of a vegetation deposition model for a fast response urban Lagrangian dispersion model. 8th AMS Urb. Env. Symp., Phoenix, AZ. Paper J18.3.

Pol, S.U., N.L. Bagal, B. Singh, M.J. Brown and E.R. Pardyjak, 2006: Implementation of a New Rooftop Recirculation Parameterization into the QUIC Fast Response Urban Wind Model. 6th AMS Urb. Env. Symp., Atlanta, GA. Paper JP1.2.

Singh, B., M.D. Williams, E.R. Pardyjak and M.J. Brown, 2004: Testing of an Urban Lagrangian Dispersion Model Using Gaussian and Non-Gaussian Solutions. Symp. Planning, Nowcasting, and Forcasting Urb. Zone, 84th Annual Mtg. AMS, Seattle, WA. Paper 6.6.

Singh, B., E.R. Pardyjak, M.J. Brown and M.D. Williams, 2006: Testing of a Far-Wake Parameterization for a Fast Response Urban Wind Model. 6th AMS Urb. Env. Symp., Atlanta, GA. Paper J8.4A.

Singh, B., E. R. Pardyjak, A. Norgren, and P. Willemsen, 2009: Integrating a complete Lagrangian dispersion model into an urban GPU-based simulation system. 8th AMS Urb. Env. Symp., Phoenix, AZ. Paper J19.5.

Williams, M.D., M.J. Brown, and E. Pardyjak, 2002: Development of a Dispersion Model for Flow around Buildings. 4th AMS Urb. Env. Symp., Norfolk, VA. Paper J1.12.

Williams, M.D., M.J. Brown, D. Boswell, B. Singh, and E. Pardyjak, 2004: Testing of the QUIC-PLUME Model with Wind-Tunnel Measurements for a High-Rise Building. 5th AMS Urb. Env. Symp., Vancouver, B.C., Canada. Paper J5.3.

Williams, M.D., M.J. Brown and A. Gowardhan, 2005: Adaptation of the QUIC-PLUME Model for Heavy Gas Dispersion Around Buildings. AMS Atmo. Sci. and Air Qual. Conf., San Francisco, CA. Paper 8.6.

Operated by Los Alamos National Security, LLC for the U.S. Department of Energy's NNSA

Inside | © Copyright 2010-11 Los Alamos National Security, LLC All rights reserved | Disclaimer/Privacy | Web Contact