Current concepts and applications of air quality simulation models

Current air quality simulation models (AQSM) based on the continuity equation employ the gradient transport approximation and neglect the effect of turbulent fluctuation on chemical reactions. The implications of these approximations are examined, and an alternative statistical, Lagrangian approach applicable to nonreactive pollutants is also discussed.Practically, the working equations of AQSMs are derived from either the Gaussian principle or the conservation-of-mass principles, in conjunction with the semi-empirical parameterizatio of meteorological and photochemical aspects of the problem. The main features of the treatment of the meteorology and current concepts of the photochemical smog mechanism are examined. Some applications of AQMSs, e.g., predictions of future trends of urban carbon monoxide concentrations and photochemical smog, derivation of the relationship between ambient oxidant levels and precursor emission, and estimation of hydrocarbon reactivity for photochemical smog formation, are presented.