Roselle, 1994 - Google Patents
Effects of biogenic emission uncertainties on regional photochemical modeling of control strategiesRoselle, 1994
- Document ID
- 2192117901979912975
- Author
- Roselle S
- Publication year
- Publication venue
- Atmospheric Environment
External Links
Snippet
The sensitivity of regional ozone (03) modeling to uncertainties in biogenic emission estimates has been studied with the United States Environmental Protection Agency's Regional Oxidant Model (ROM). Photochemical oxidants in the northeastern United States …
- 230000000035 biogenic 0 title abstract description 79
Classifications
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01W—METEOROLOGY
- G01W1/00—Meteorology
- G01W1/10—Devices for predicting weather conditions
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01W—METEOROLOGY
- G01W1/00—Meteorology
- G01W1/08—Adaptations of balloons, missiles, or aircraft for meteorological purposes; Radiosondes
Similar Documents
Publication | Publication Date | Title |
---|---|---|
Roselle | Effects of biogenic emission uncertainties on regional photochemical modeling of control strategies | |
Benkovitz et al. | Sulfate over the North Atlantic and adjacent continental regions: Evaluation for October and November 1986 using a three‐dimensonal model driven by observation‐derived meteorology | |
McKeen et al. | A regional model study of the ozone budget in the eastern United States | |
Grell et al. | Fully coupled “online” chemistry within the WRF model | |
Seinfeld | Ozone air quality models | |
Levy et al. | Simulated tropospheric NO x: Its evaluation, global distribution and individual source contributions | |
Chin et al. | Relationship of ozone and carbon monoxide over North America | |
Kasibhatla et al. | Global NO x, HNO3, PAN, and NO y distributions from fossil fuel combustion emissions: A model study | |
Roselle et al. | The sensitivity of regional ozone modeling to biogenic hydrocarbons | |
Jacob et al. | Simulation of summertime ozone over North America | |
Stanhill et al. | Global radiation climate changes: The world network | |
Reddy et al. | A study of the global cycle of carbonaceous aerosols in the LMDZT general circulation model | |
Hidy et al. | Spatial and temporal distributions of airborne sulfate in parts of the United States | |
Rao et al. | Summertime characteristics of the atmospheric boundary layer and relationships to ozone levels over the eastern United States | |
Gillani et al. | Gas-to-particle conversion of sulfur in power plant plumes—I. Parametrization of the conversion rate for dry, moderately polluted ambient conditions | |
Walcek | A theoretical estimate of O3 and H2O2 dry deposition over the northeast United States | |
Considine et al. | Sensitivity of Global Modeling Initiative chemistry and transport model simulations of radon-222 and lead-210 to input meteorological data | |
Delon et al. | Biogenic nitrogen oxide emissions from soils–impact on NO x and ozone over West Africa during AMMA (African Monsoon Multidisciplinary Experiment): modelling study | |
Ryan et al. | Air quality forecasts in the mid-Atlantic region: Current practice and benchmark skill | |
Novak et al. | Natural emissions of oxidant precursors | |
Brett et al. | Investigating processes influencing simulation of local Arctic wintertime anthropogenic pollution in Fairbanks, Alaska during ALPACA-2022 | |
Fast et al. | The effect of lake temperatures and emissions on ozone exposure in the western Great Lakes region | |
Andronopoulos et al. | Evolution and transport of pollutants over a Mediterranean coastal area: The influence of biogenic volatile organic compound emissions on ozone concentrations | |
Benkovitz et al. | Attribution of modeled atmospheric sulfate and SO 2 in the Northern Hemisphere for June–July 1997 | |
Gurren et al. | Biogenic isoprene in the lower Fraser valley, British Columbia |