| AERMOD: A dispersion model for industrial source applications. Part I: General model formulation and boundary layer characterization AJ Cimorelli, SG Perry, A Venkatram, JC Weil, RJ Paine, RB Wilson, ... Journal of applied meteorology 44 (5), 682-693, 2005 | 1012 | 2005 |
| Footprint estimation for scalar flux measurements in the atmospheric surface layer TW Horst, JC Weil Boundary-Layer Meteorology 59, 279-296, 1992 | 583 | 1992 |
| How far is far enough?: The fetch requirements for micrometeorological measurement of surface fluxes TW Horst, JC Weil Journal of Atmospheric and Oceanic Technology 11 (4), 1018-1025, 1994 | 407 | 1994 |
| AERMOD: A dispersion model for industrial source applications. Part II: Model performance against 17 field study databases SG Perry, AJ Cimorelli, RJ Paine, RW Brode, JC Weil, A Venkatram, ... Journal of applied meteorology 44 (5), 694-708, 2005 | 327 | 2005 |
| Turbulent plume in a laminar cross flow DP Hoult, JC Weil Atmospheric Environment (1967) 6 (8), 513-531, 1972 | 197 | 1972 |
| An analytical one-dimensional second-order closure model of turbulence statistics and the Lagrangian time scale within and above plant canopies of arbitrary structure WJ Massman, JC Weil Boundary-Layer Meteorology 91, 81-107, 1999 | 196 | 1999 |
| The use of large-eddy simulations in Lagrangian particle dispersion models JC Weil, PP Sullivan, CH Moeng Journal of the atmospheric sciences 61 (23), 2877-2887, 2004 | 187 | 2004 |
| A diagnosis of the asymmetry in top-down and bottom-up diffusion using a Lagrangian stochastic model JC Weil Journal of Atmospheric Sciences 47 (4), 501-515, 1990 | 187 | 1990 |
| Structure of subfilter-scale fluxes in the atmospheric surface layer with application to large-eddy simulation modelling PP Sullivan, TW Horst, DH Lenschow, CH Moeng, JC Weil Journal of Fluid Mechanics 482, 101-139, 2003 | 178 | 2003 |
| Evaluating air-quality models: review and outlook JC Weil, RI Sykes, A Venkatram Journal of Applied Meteorology and Climatology 31 (10), 1121-1145, 1992 | 175 | 1992 |
| Whither the stable boundary layer? A shift in the research agenda HJS Fernando, JC Weil Bulletin of the American Meteorological Society 91 (11), 1475-1484, 2010 | 152 | 2010 |
| An updated Gaussian plume model for tall stacks JC Weil, RP Brower Journal of the Air Pollution Control Association 34 (8), 818-827, 1984 | 135 | 1984 |
| Updating applied diffusion models JC Weil Journal of Applied Meteorology and Climatology 24 (11), 1111-1130, 1985 | 130 | 1985 |
| 100 years of progress in boundary layer meteorology MA LeMone, WM Angevine, CS Bretherton, F Chen, J Dudhia, ... Meteorological Monographs 59, 9.1-9.85, 2019 | 128 | 2019 |
| Plume rise JC Weil Lectures on air pollution modeling, 119-166, 1988 | 125 | 1988 |
| Atmospheric stability influences on coupled boundary layer and canopy turbulence EG Patton, PP Sullivan, RH Shaw, JJ Finnigan, JC Weil Journal of the Atmospheric Sciences 73 (4), 1621-1647, 2016 | 122 | 2016 |
| Transport asymmetry in skewed turbulence JC Wyngaard, JC Weil Physics of Fluids A: Fluid Dynamics 3 (1), 155-162, 1991 | 118 | 1991 |
| Turbulent winds and temperature fronts in large-eddy simulations of the stable atmospheric boundary layer PP Sullivan, JC Weil, EG Patton, HJJ Jonker, DV Mironov Journal of the Atmospheric Sciences 73 (4), 1815-1840, 2016 | 115 | 2016 |
| Dispersion in the convective boundary layer JC Weil Lectures on Air Pollution Modeling, 167-227, 1988 | 113 | 1988 |
| Building resolving large-eddy simulations and comparison with wind tunnel experiments PK Smolarkiewicz, R Sharman, J Weil, SG Perry, D Heist, G Bowker Journal of Computational Physics 227 (1), 633-653, 2007 | 111 | 2007 |
