Air pollution is a fruitful subject for a wide range of simulations, varying from macroscale multizone flow models to microscale photochemical reactions. This article describes one of the latter type, a simulation of photochemical reactions similar to those which produce smog.
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References
1.
2.
Altshuller A.P.Cohen I.R. "Atmospheric photo-oxidation of the ethylene-nitric oxide system" International Journal of Air and Water Pollution vol 81964
3.
Ulbrich E.A.Adapredictive air pollution control for theLos Angeles Basin Douglas paper no 4658 October 1967
4.
Ulbrich E.A.A hybrid computer simulation investigating the cost effectiveness of air pollution control over a ten-year period Douglas paper no 4902 June 1968
5.
Jaffee D.S.Jones R.A.A hybrid computer simulation of the ethylene-nitric oxide photochemical reaction Douglas report no 58146 July 1968
6.
Tilton J.R.Kochman A.F.ADEPT II—modified ADEPT method for forecasting trends in technology development Douglas report no 58140 July 1968
7.
Kochman A.F.Development of the display methodology for an air pollution command and control system Douglas paper no 4888 April 1968
8.
Tilton J.R.Applied Delphi technique (ADEPT)—a method for forecasting future trends and events Douglas report no 58110 December 1967
