Briggs, G.A., 1975, “Plume rise predictions” in Lectures on Air Pollution and Environmental Impact Analysis, Haugen, D.A. (ed.), American Meteorological Society, Boston, 59–111.
Briggs, G.A., 1984: Plume rise and buoyancy effects, pp. 327–366 in Atmospheric Science and Power Production, Randerson, D. (ed.), US Dept. of Energy, DOE/TIC-27601.
Cimorelli, A.J., Perry, S.G., Venkatram, A., Weil, J.C., Paine, R.J., Wilson, R.B., Lee, R.F., Peters, W.D. and Brode, R.W., 2004: AERMOD: A dispersion model for industrial source applications Part I: General model formulation and boundary layer characterization. Journal of Applied Meteorology and Climatology 44, 682–693.
Hunt, J. and Ogawa, Y.,. 1985: The structure of the strongly stratified flow over hills: Dividing streamline concept. Journal of Fluid Mechanics 152, 249–288.
Ruby, M. and McAlpine, J.D., 2004: Estimating odor impact with computational fluid dynamics. WEF Odors and Air Emissions 2004 (Alexandria, VA: Water Environment Federation, Session 3, 25 pp. Envirometrics, Inc. http://www.envirometrics.com/abstracts/CFDOdor.pdf
O’Shaughnessy, P.T. and Altmaier, R., 2011: Use of AERMOD to determine a hydrogen sulfide emission factor for swine operations by inverse modeling. Atmospheric Environment 45, 4617–4625.
Snyder, W.H., Thompson, R.S., Eskridge, R.E., Lawson, R.R., Castro, I.P., Lee, J.T., Hunt, J.C.R. and Ogawa, Y., 1985: The structure of strongly stratified flow over hills: dividing-streamline concept. Journal of Fluid Mechanics, 152, 2492–288.
Steib, R., 2006: Regulatory modeling in Hungary — the AERMOD model. Part II. Sensitivity of the model and case studies, Idõjárás 110, No. 1, 15–33.
Steib, R. and Labancz, K., 2005: Regulatory modeling in Hungary – the AERMOD model Part I. Description and application, Idõjárás 109, No. 3, 157–172.
van Ulden A.P and Holtslag, A.A.M., 1985 Estimation of Atmospheric Boundary Layer Parameters for Diffusion Applications. Journal of Applied Meteorology 24, No. 11, 1196–1207.