Impact of particle emissions of new laser printers on modeled office room

摘要

In this study, we present how an indoor aerosol model can be used to characterize particle emitter and predict influence of the source on indoor air quality. Particle size-resolved emission rates were quantified and the source's influence on indoor air quality was estimated by using office model simulations. We measured particle emissions from three modern laser printers in a flow-through chamber. Measured parameters were used as input parameters for an indoor aerosol model, which we then used to quantify the particle emission rates. The same indoor aerosol model was used to simulate the effect of the particle emission source inside an office model. The office model consists of a mechanically ventilated empty room and the particle source. The aerosol from the ventilation air was a filtered urban background aerosol. The effect of the ventilation rate was studied using three different ventilation ratios 1,2 and 3 h~(-1). According to the model, peak emission rates of the printers exceeded 7.0 × 10~8 s~(-1) (2.5 × 10~(12) h~(-1)), and emitted mainly ultrafine particles (diameter less than 100 nm). The office model simulation results indicate that a print job increases ultrafine particle concentration to a maximum of 2.6 × 10~5 cm~(-3). Printer-emitted particles increased 6-h averaged particle concentration over eleven times compared to the background particle concentration.