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Input data III · software · air pollution cause
Line source:
Line source: This is a pollutant line source. The line width is small if we compare it with the size of the area in which we are simulating (line source). If you click this button, the next dialog box is shown:
software · air pollution cause
Pollutant emission rate (g/m s): This is the pollutant emission rate.
Decay coefficient (1/s): This coefficient considers the half life of the pollutant if this disappears by means of chemical reactions (non-conservative pollutant).
Estimate flow rate: With this button, you can estimate the pollutant flow rate if it is unknown. If you know the rate, you don't need to use this command. You can write it directly in the point source window. If you click this button, the next dialog box is shown:
software · air pollution cause
software · air pollution cause
DISPER software solutions: This application has been used in great number of environmental reports, air pollution courses and air pollution studies in the last years. We currently have users in more than 10 countries.
Lima: air pollution problem in cement plant - air pollution and health near hospitals - CO air pollution dispersion modeling in roads -
Arequipa: air pollution control association study -
Callao: ISCST3 type modelization - study of atmospheric emissions - iscst type simulation -
Trujillo: plume simulation - isct type calculation - SO2 plumes modeling - report on photochemical pollution -
Chiclayo: stack gas diffusion modeling - stacks and smog in cities - CO air pollution dispersion modeling in roads -
Iquitos: acid rain modeling and regulatory simulations - long range simulation - study of chemical effects -
Huancayo: short term calculation and prevention - report on light pollution effects -NO air pollution calculation -
Piura: photochemical smog dispersion simulation - ISC3 type dispersion calculation - mixing height simulation -
Chimbote: ISCST type dispersion calculation - stack downwash calculation - report on atmospheric environment -
Cusco: carbon dioxide dispersion modeling - acid rain study - CO air pollution dispersion modeling in roads -
Pucallpa: environmental degradation report - dispersion of nitrogen oxides near roads -
Tacna: course of atmospheric pollutants - CO stack emissions - monitoring NOx in cities -
Juliaca: control commission study - health department report - air pollution industry analysis
Ica: air pollution control near plants - air pollution cause report near highways - CO modeling in roads - NO air pollution calculation -
Sullana: air pollution health near schools study - mixing height and pasquill stability calculation -
Carabayllo: stability calculation in ICST type model with briggs parameters - CO air pollution dispersion modeling in roads -
Chincha: thermal inversion effect calculation - particulate matter dispersion calculation - CO modeling in roads - NO air pollution calculation -
Huánuco: hydrocarbons dispersion simulation - ISCST3 type dispersion calculation - CO air pollution dispersion modeling in roads -
Ayacucho: ISCST3 type modelization - study of atmospheric emissions - iscst type simulation - stack downwash calculation -
Cajamarca: stack gas diffusion modeling - stacks and smog in cities - NH3 air pollution modeling in highways -
Lurigancho: mixing height simulation - NO air pollution calculation - photochemical smog dispersion simulation - ISC3 type dispersion calculation -
Tarapoto: NOx air pollution dispersion model - VOC air pollution modeling in plants - Cl2 modeling -
Puno: SOx air pollution dispersion simulation near hospitals - NOx model - VOC air pollution modeling in plants -
Sheffield - air atmosphere - air source - gas dispersion - air deposition -
Puerto Cabello: PM10 air emission modeling - mobile source air emission modeling - NH3 air emission modeling
Guacara: PM2.5 air emission modeling - VOC air emission modeling - landfills emissions -
El Tigre: SO2 air emission modeling - PM air emission modeling - HNO3 air emission modeling
El Limón: Cl2 pollutant air emission modeling - NOx air emission modeling - CO air emission modeling
Acarigua: landfill air emission modeling - acid rain air emission modeling - HNO3 air emission modeling
Punto Fijo: PM10 air emission modeling - mobile source air emission modeling - NH3 air emission modeling
Cabudare: PM2.5 air emission modeling - VOC air emission modeling - effluents modeling -
Charallave: SO2 air emission modeling - PM air emission modeling - CO air emission modeling -
Palo Negro: Cl2 pollutant air emission modeling - NOx air emission modeling - chloramines emission -
Cagua: CO2 air emission modeling - particulate matter air emission modeling - CO air emission modeling -
Anaco: PM10 air emission modeling - mobile source air emission modeling - carbon dioxide air emission modeling -
Calabozo: PM2.5 air emission modeling - VOC air emission modeling
Guanare: CO2 air emission modeling - particulate matter air emission modeling - CH4 gas emissions -
Carúpano: Cl2 pollutant air emission modeling - NOx air emission modeling - NH3 air emission modeling -
Ejido: PM10 air emission modeling - mobile source air emission modeling - CO air emission modeling -
Catia La Mar: Cl2 pollutant air emission modeling - NOx air emission modeling - NH3 air emission modeling -
Mariara: PM10 air emission modeling - mobile source air emission modeling - CO air emission modeling -
Bradford - air pollutant monitoring
Brighton & Hove - HNO3 air emission modeling - effluent modeling and toxicology - microbiological emission -
Bristol - ecotoxicology calculation
Cambridge - SO2 calculation with standard methods - particulate matter and ozone dispersion simulation -
Canterbury - NH3 air emission modeling
Cardiff - HNO3 air emission modeling - CO2 atmospheric emission - SOx sources estimation -
Carlisle - particulate matter calculation - CH3 ambient calculations - PM source report
Chester - PM10 pollutant emission - toxics - dust emission
Chichester - NH3 air emission modeling