Development of the simulation model in pest for prediction of the indoor behavior of pesticides

Abstract

The objective was to develop a computer software package (to be registered as InPest) that runs under Microsoft Excel on a personal computer to help in the risk assessment of indoor-use pesticides for both applicators and indoor occupants for various methods of application including space spraying, electric vaporizing, broadcast spraying, and residual spraying. For space spraying, the movement of the pesticide in a sprayed room including droplet settlement, permeation into the floor, degradation, transference, and discharge by ventilation were described as precisely as possible by various physicochemi-cal equations. The equations thus obtained were then incorporated into the Fugacity model (Level IV). When pesticide information regarding molecular weight, vapor pressure, water solubility, and octanol/water partition coefficient is available, InPest is able to simulate the time-dependent concentrations of the pesticide in the air and residual amounts on floor, wall, and ceiling materials under various conditions. Simulation data indicate that the predicted behavior of pesticides fully agrees with the measured data. Based on the predicted concentrations in the air and amounts of residue on the floor, the levels of exposure to room occupants via inhalation, dermal, or oral intake can be computed and compared with the mammalian toxicological data. Thus, InPest is a powerful tool for evaluating the safety of indoor-use pesticides with regard to human health. © 1998 Air and Waste Management Association.