Table 15.
Recent studies on air pollution forecasting using three dimensional model.
| Method | Pollutant | Country | Inputs | Ref. |
|---|---|---|---|---|
| WRF-Chem | PM10 | Poland | Meteorological data, emission data | [94] |
| Models-3/CMAQ | O3 | United States | Meteorological information, emission rates from sources | [27] |
| CMAQ-MOS | PM10, NO2 | China | Wind field (U, V), temperature field (Ts), relative humidity (RH) | [65] |
| CMAQ-ANNs | PM10, SO2 | China | Wind field (U, V), temperature field (Ts), relative humidity (RH), concentrations of PM2.5, PM10, SO2, NO2, O3 | [65] |
| WRF-ADMS | Perfluoromethylcyclohexane | Tunis | Initial and boundary conditions, topography, land use and soil data, exit diameter, release point height, flow rate, temperature, hourly averaged meteorological data | [83] |
| Coupled WRF-SFIRE with WRF-Chem | Fire somke | United States | Fuel categories, FINN emission factors, | [95] |
| CALPUFF-WRF | SO2 | Sultan | land use categories, terrain elevations, surface and upper air meteorological observations or meteorological fields | [85] |
| WRF-Chem | O3 | United States | No detailed description | [92] |
| WRF/Chem-MADRID | O3, PM2.5 | United States | No detailed description | [93] |
| CALPUFF | Total suspended particulate (TSP) | Israel | Temperature, relative humidity, barometric pressure, 10 min average wind speed and direction, cloud cover, topographic data | [84] |
| AERMOD | Total suspended particulate (TSP) | Israel | Meteorological data (Temperature, relative humidity, barometric pressure, 10 min average wind speed and direction) from two site, cloud cover, topographic data | [84] |