AERMOD Tech Guide

Gaussian Plume Air Dispersion Model

9. References

AERMIC, 1995, Formulation of the AERMIC MODEL (AERMOD) (Draft), Regulatory Docket AQM-95-01, AMS/EPA Regulatory Model Improvement Committee (AERMIC).

Andre, J.C. and L. Mahrt, 1982, “The nocturnal surface inversion and influence of clean-air radiative cooling,” J. Atmos. Sci., 39:864-878.

Baerentsen, J.H., and R. Berkowicz, 1984 “Monte Carlo simulation of plume dispersion in the convective boundary layer,” Atmos. Environ., 18:701-712.

Barad, M.L, (Ed.)., 1958, Project Prairie Grass, A Field Program in Diffusion, GeophysicalResearch Papers, No. 59, Vols. I and II, Report AFCRC-TR-58-235, Air Force Cambridge Research Center, 439pp.

Berkowicz, R., J. R. Olesen, and U. Torp, 1986, "The Danish Gaussian air pollution model (OLM): Description, test and sensitivity analysis, in view of regulatory applications," Air Pollution Modeling and Its Application, V. C. De Wispelaire, F. A. Schiermeier, and N. V. Gillani, Eds. Plemum, New York, 453-481pp.

Bornstein, R.D., 1968, “Observations of urban heat island effect in New York city,” J. Appl. Meteor., 7:575-582.

Brett, A.C. and S.E. Tuller, 1991, “Autocorrelation of hourly wind speed observations,” J. Appl. Meteorol., 30:823-833.

Briggs, G. A., 1971, "Some recent analyses of plume rise observations", in Proceedings of the Second International Clean Air Congress, H. M. Englund and W. T. Berry, Eds., academic Press, New York, 1029-1032.

Briggs, G. A., 1975, “Plume rise predictions” in Lectures on Air Pollution and Environmental Impact Analysis, D. A. Haugen, ed., American Meteorological Society, Boston (59-111).

Briggs, G.A., 1984, "Plume rise and buoyancy effects," in Atmospheric Science and Power Production, D. Randerson, Ed., DOE/TIC-27601, U.S. Dept. of Energy, 327-366.

Briggs, G.A., 1988, “Analysis of diffusion field experiments,” Lectures on Air Pollution.106 Modeling, A. Venkatram and J.C. Wyngaard, Eds., Amer. Meteor. Soc., Boston, 63--117.

Briggs G.A., 1993, "Plume dispersion in the convective boundary layer. PartII: Analyses of CONDORS field experiment data," J. Applied Meterol., 32:1388-1425.

Brost, R.A., J.C. Wyngaard, and D.H. Lenschow, 1982, “Marine stratocumulus layers: Part II: Turbulence budgets,” J.Atmos. Sci., 39:818-836.

Carruthers, D.J., R.J. Holroyd, J.C.R. Hunt, W.S. Weng, A.G. Robins, D.D. Apsley, D.J. Thomson, and F.B. Smith, 1992, “UK-ADMS – a New Approach to Modelling Dispersion in the Earth’s Atmospheric Boundary Layer,” In Proceedings of the Workshop: Objectives for Next Generation of Practical Short-Range Atmospheric Dispersion Models, May 6-8, 1992, Riso, Denmark, pp. 143-146.

Carruthers, D.J., Holroyd, R.J., Hunt, J.C.R., Weng, W.-S., Robins, A.G., Apsley, D.D., Smith, F.B., Thomson, D.J., and Hudson, B., 1992, “UK atmospheric dispersion modelling system,” Air Pollution Modeling and Its Application, H. van Dop and G. Kallos, Eds., Plenum Press, New York.

Carson, D. J., 1973, "The development of a dry inversion-capped convectively unstable boundary layer," Quart. J. Roy. Meteor. Soc., 99:450-467.

Caughey, S.J., and S.G. Palmer, 1979, “Some aspects of turbulence structure through the depth of the convective boundary layer” Quart. J. Roy. Meteor. Soc., 105, 811-827.

Cimorelli, A.J., S.G. Perry, R.F. Lee, R.J. Paine, A. Venkatram, J.C. Weil and R.B. Wilson, 1996, “Current Progress in the AERMIC Model Development Program,” in Proceedings 89 TH Annual Meeting Air and Waste Management Association, 96-TP24B.04, Air and Waste Management Association, Pittsburgh, PA.

Code of Federal Regulations, July 1, 1997, 40CFR, Part 51, App. W, Guideline on Air Quality Models, pp. 346-438.

Collier, L. R., and J. G. Lockwood, 1975, “Reply to Comment,” Quart. J. Roy. Meteor. Soc.., 101, 390-392.

Deardorff, J.W. 1972, “Numerical investigation of neutral and unstable planetary boundary layers,” J. Atmos. Sci., 29: 91--115..107

Deardorff, J.W., 1980, Progress in Understanding Entrainment at the Top of a Mixed Layer, in Workshop on the Planetary Boundary Layer, J.C. Wyngaard, Ed., American Meteorological Society, Boston, MA.

Garratt, F.R., 1992, The Atmospheric Boundary Layer, Cambridge University Press, New York, New York, 334pp.

Gifford, F.A., 1975, “Atmospheric dispersion models for environmental pollution applications,” Lectures on Air pollution and Environmental Impact Analyses, D.A. Haugen, Ed., Amer. Meteor. Soc., Boston, 35-58.

Gifford, F.A., 1959, "Statistical properties of a fluctuating plume dispersion model," Advances in Geophysics, Academic Press, 6:117-138.

Hanna, S.R., 1983, “Lateral turbulence intensity and plume meandering during stable conditions,” J. Appl. Meteorol, 22:1424-1430.

Hanna, S.R., J.C. Weil, and R.J. Paine, 1986, Plume Model Development and Evaluation –Hybrid Approach, EPRI Contract No. RP-1616-27, prepared for the Electric Power Research Institute, Palo Alto, CA.

Hanna, S.R., and R.J. Paine, 1989, "Hybrid Plume Dispersion Model (HPDM) development and evaluation," J. Appl. Meteor., 28:206-224.

Hanna, S.R. and J.S. Chang, 1991, “Modification of the Hybrid Plume Dispersion Model (HPDM) for urban conditions and its evaluation using the Indianapolis data set, Volume III: Analysis of urban boundary layer data,” Report for EPRI, Palo Alto, CA, EPRI Project No. RP-02736-1.

Hanna, S.R., and J. C. Chang, 1993, “Hybrid Plume Dispersion Model (HPDM), improvements and testing at three field sites,” Atmos.. Environ., 27A:1491-1508.

Hayes, S.R., and G.E. Moore, 1986, “Air quality model performance: a comparative analysis of 15 model evaluation studies,” Atmos. Environ., 20: 1897--1911.

Hicks, B.B., 1985, “Behavior of turbulent statistics in the convective boundary layer,” J. Climate Appl. Meteor., 24:607-614..108

Holtslag, A.A.M., and A.P. Van ulden, 1983, “A simple scheme for daytime estimates for the surface fluxes from routine weather data,” J.Climate Appl. Meteor., 22:517-529.

Huber, A.H., and W.H. Snyder, 1976, “Building Wake Effects on Short Stack Effluents,” Preprint Volume for the Third Symposium on Atmospheric Diffusion and Air Quality, American Meteorological Society, Boston, MA.

Huber, A.H., and W.H. Snyder, 1982, “Wind tunnel investigations of the effects of a rectangular-shaped building on dispersion of effluents from short adjacent stacks,” Atmos. Environ., 176:2837-2848.

Irwin, J. S,, J. O. Paumier, and R. W. Brode, 1988, Meteorological Processor for Regulatory Models (MPRM) User's Guide, EPA-600/3-88-043, U. S. Environmental Protection Agency, Research Triangle Park, North Carolina.

Kaimal, J.C., J.C. Wyngaard, D.A. Heugen, O.R. Cote’, Y. Izumi, S.J. Caughey, and C.J. Readings, 1976, “Turbulence structure in the convective boundary layer,” J. Atmos. Sci., 33, 2152-2169.

Kasten, F. and G. Czeplak, 1980, “Solar and terrestial radiation dependent on the amount and type of cloud.” Solar Energy, 24:177-189.

Lee, R.F., S.G. Perry, A.J. Cimorelli, R.J. Paine, A. Venkatram, J.C. Weil and R.B. Wilson, 1995, “AERMOD - the developmental evaluation,” Preprints of the Twenty-First NATO/CCMS International Technical Meeting on Air Pollution Modeling and Its Application, Baltimore, MD, U.S.A.

Lamb, R.G., 1982, “Diffusion in the convective boundary layer,” Atmospheric Turbulence and Air Pollution Modelling, F.T.M. Nieuwstadt and H. van Dop, Eds., Reidel, 159--229.

Lee, R.F., R.J. Paine , S.G. Perry, A.J. Cimorelli, J.C. Weil, A. Venkatram, and R.B. Wilson, 1998a, “Developmental Evaluation of the AERMOD Dispersion Model”, Tenth Joint AMS/AWMA Conference on Application of Air Pollution Meteorology, January 11-16, 1998, Phoenix, AZ, American Meteorological Society, Boston.

Lee, R.F., R.J. Paine , S.G. Perry, A.J. Cimorelli, J.C. Weil, A. Venkatram, and R.B. Wilson, 1998b, “Developmental Evaluation of the AERMOD Dispersion Model” Draft document (included in peer review package).109

Misra, P.K., 1982, "Dispersion of non-buoyant particles inside a convective boundary layer," Atmos. Environ., 16:239-243.

Nieuwstadt, F.T.M., and H. van Dop, 1982, Atmospheric Turbulence and Air Pollution Modelling, Reidel, 358 pp.

Oke, T.R., 1973, “City size and the urban heat island,” Atmos. Environ., 7:769-779.

Oke, T.R., 1978, Boundary Layer Climates, John Wiley and Sons, New York, New York, 372pp.

Oke, T.R., 1982, “The energetic basis of the urban heat island,” J. R. Met. Soc., 108, pp.1-24.

Olesen, H.R., P. Lofstrom, R. Berkowicz, and A.B. Jensen, 1991, “An Improved Dispersion Model for Regulatory Use – the OML Model,” In Proceedings of the 19 International Technical th Meeting on Air Pollution Modeling and its Applications, Ierapetra, Crete, Greece. 29 September – 4 October 1991.

Paine, R. J. and B. A. Egan, 1987, User's guide to the Rough Terrain Diffusion Model (RTDM)-Rev. 3.20 ERT Document PD-535-585, ENSR, Acton, MA, 260 pp.

Paine, R.J., and S.B. Kendall, 1993, “Comparison of Observed Profiles of Winds, Temperature, and Turbulence with Theoretical Results,” from Proceedings of an International Specialty Conference on the Role of Meteorology in Managing the Environment in the 90s, pp.395-413.

Panofsky, H.A., J.A.Dutton, 1984, Atmospheric Turbulence: Models and Methods for Engineering Applications, John Wiley and Sons, NY, 417 pp.

Panofsky, H.A., H. Tennekes, D.H. Lenschow, and J.C. Wyngaard, 1977, “The characteristics of turbulent velocity components in the surface layer under convective conditions,” Bound.-Layer Meteor., 11:355-361.

Pasquill, F., F.R. Smith, 1983, Atmospheric Diffusion, third edition, John Wiley & Sons Inc., New York, pp.440.

Perry, S.G., D.J. Burns, L.H. Adams, R.J. Paine, M.G. Dennis, M.T. Mills, D.G. Strimaitis, R.J. Yamartino, E.M. Insley, 1989, User’s Guide to the Complex Terrain Dispersion Model PlusAlgorithms for Unstable Situations (CTDMPLUS) Volume 1: Model Description and User.110 Instructions, EPA/600/8-89/041, U.S. Environmental Protection Agency, Research Triangle Park, NC, 196pp.

Perry, S. G., 1992, "CTDMPLUS: A dispersion model for sources in complex topography. Part I: Technical formulations," J. Appl. Meteor., 31:633-645.

Perry, S.G., A.J. Cimorelli, R.F. Lee, R.J. Paine, A. Venkatram, J.C. Weil, and R.B. Wilson, 1994, “AERMOD: A dispersion model for industrial source applications,” in Proceedings 87 TH Annual Meeting Air and Waste Management Association, 94-TA23.04, Air and Waste Management Association, Pittsburgh, PA.

PES, 1998, “Performance (Phase II) Evaluation of the AERMOD Dispersion Model (Draft)”, U.S. Environmental Protection Agency Report, Pacific Environmental Services under EPA Contract No. 68D70069, Work Assignment No. 01-04.

Reading, C.J., D.A. Haugen, and J.C. Kaimal, 1974, “The 1973 Minnesota atmospheric boundary layer experiment,” Weather, 29: 309-312.

Schulman, L.L., J.S. Scire, 1980, Buoyant Line and Point Source (BLP) Dispersion Model User’s Guide., Document P-7304B, Envireomental Research and Technology, Inc., Concord, MA.

Sheppard, P. A., 1956, "Airflow over mountains," Quart. J. Roy. Meteor. Soc., 82:528-529.

Smith, M.E., 1984, “Review of the attributes and performances of 10 rural diffusion models,” Bull. Amer. Soc., 65, 554-558.

Snyder, W. H., R. S. Thompson, R. E. Eskridge, R. E. Lawson, I. P. Castro, J. T. Lee, J. C. R. Hunt, and Y. Ogawa, 1985, “The structure of the strongly stratified flow over hills: Dividing streamline concept,” J. Fluid Mech., 152:249-288.

Sykes, R.I., D.S. Henn, S.F. Parker, and R.S. Gabruk, 1996, “SCIPUFF - A generalized hazard dispersion model,” Preprints Ninth Joint Conference on Applications of Air Pollution Meteorology with A&WMA, Amer. Meteor. Soc., Boston, 184--188.

Taylor, G.I., 1921, “Diffusion by continuous movements,” Proc. London Math. Soc., Ser.2(20):196-211..111

Turner, D.B., T. Chico and J. Catalano, 1986, TUPOS—A Multiple Source Gaussian Dispersion Algorithm Using On-site Turbulence Data, EPA/600/8-86/010. US EPA, Research Triangle Park, NC, 39 pp.

U.S. Environmental Protection Agency, 1992, Protocol for Determining the Best Performing Model , EPA-454/R-92-025, U.S. Environmental Protection Agency, Research Triangle Park, 2 NC.

U.S. Environmental Protection Agency, 1995, SCREEN3 User’s Guide., EPA-454/B-95-004

U.S. Environmental Protection Agency, Research Triangle Park, NC, (NTIS No. PB 95-222766).

U.S. Environmental Protection Agency, 1995, User's Guide for the Industrial Source Complex (ISC3) Dispersion Models (revised) Volume I - User Instructions EPA-454/b-95-003a, U.S. Environmental Protection Agency, Research Triangle Park, NC.

U.S. Geological Survey, 1994: The 1994 plan for the National Spatial Data Infrastructure –Building the foundation of an information based society. Federal Geographic Data Committee Report, U.S. Geological Survey, Reston VA, Internet World Wide Web HTML ftp://fgdc.er.usgs.gov/gdc/html/fgdc.html

van Ulden, A. P., and A. M. Holtslag, 1983, “The stability of the atmospheric surface layer during nighttime”, Sixth Symposium on Turbulence and Diffusion, American Meteorological Society, Boston, 257-260.

van Ulden, A. P., and A. M. Holtslag, 1985, "Estimation of atmospheric boundary layer parameters for diffusion applications," J. Clim. and Appl. Meteor., 24:1196-1207.

Venkatram, A., 1980, "Estimating the Monin-Obukhov length in the stable boundary layer for dispersion calculations," Bound. Layer Meteor., 19:481-485.

Venkatram, A., 1983, "On dispersion in the convective boundary layer," Atmos. Environ., 17:529-533.

Venkatram, A., 1988, “Dispersion in the stable boundary layer,” Lectures on Air Pollution Modeling, A. Venkatram and J.C. Wyngaard, Eds., Amer. Meteor. Soc., Boston, pp.229-265.

Venkatram, A., and J.C. Wyngaard, Eds., 1988, Lectures on Air Pollution Modeling, Amer. Meteor. Soc., 390 pp..112

Venkatram, A., 1992, “Vertical dispersion of ground-level releases in the surface boundary layer,” Atmos. Environ., 26A:947-949.

Weil, J. C., and R. P. Brower, 1983, Estimating convective boundary layer parameters for diffusion applications, Report No. PPSP-MP-48, Maryland Power Plant Siting Program, Maryland Department of Natural Resources, Baltimore, MD, 45pp.

Weil, J.C. and R.P. Brower, 1984, “An updated gaussian plume model for tall stacks,.” J. Air Poll.. Control Assoc., 34: 818-827.

Weil J.C., 1985, “Updating applied diffusion models,” J. Clim. and App. Meteor., 24(11):1111- 1130.

Weil, J.C., L.A. Corio, and R.P. Brower, 1986,"Dispersion of buoyant plumes in the convective boundary layer," Preprints 5th Joint Conference on Applications of Air Pollution Meteorology, Amer. Meteor. Soc., Boston, 335-338.

Weil, J.C., 1988a, "Dispersion in the convective boundary layer," in Lectures on Air Pollution Modeling, A. Venkatram and J.C. Wyngaard, Eds., Amer. Meteor. Soc., Boston, 167-227.

Weil, J.C., 1988b, "Plume rise" in Lectures on Air Pollution Modeling, A. Venkatram and J.C.

Wyngaard, Eds., Amer. Meteor. Soc., Boston, 167-227.

Weil, J.C., 1990, "A diagnosis of the asymmetry in top-down and bottom-up diffusion using a Lagrangian stochastic model," J. Atmos. Sci., 47:501-515.

Weil J.C., 1992, "Updating the ISC model through AERMIC," in Proceedings 85th Annual Meeting of Air and Waste Management Association, 92-100.11, Air and Waste Management Association, Pittsburgh.

Weil, J.C., L.A. Corio, and R.P. Brower, 1997, “A PDF dispersion model for buoyant plumes in the convective boundary layer,” J. Appl. Meteor., 36:982-1003.

Willis, G.E., and J.W. Deardorff, 1981, “A Laboratory study of dispersion in the middle of the convectively mixed layer,” Atmos. Env., 15: 109-117..113

Wyngaard, J.C., 1988, Structure of the PBL, in Lectures on Air Pollution Modeling, A.

Venkatram, and J.C. Wyngaard, Eds, American Meteorological Society, Boston, MA, pp.402.

Zilitinkevich, S.S., 1972, “On the determination of the height of the ekman boundary layer,”Bound. Lay. Meteor., 3:141-145.