The significance of heterogeneous mechanisms in controlling gas-phase NOx (
NO, NO2) mixing ratios in polluted urban air, especially during nighttime,
is not well established. Several recent studies have suggested that carbon
soot can provide an effective surface for mediating the inter conversion am
ong several NOy members. However, a number of such reactions reported in th
e literature have widely varying reaction probabilities and often conflicti
ng pathways. We evaluated several of these reactions and choose the NO2 con
version to HONO on the surface of soot particles for further analysis with
a box photochemical model. These calculations show that the conversion of N
O2 to HONO on particle surfaces produces a large, measurable signal (up to
several parts per billion) in nighttime HONO mixing ratios. Inclusion of th
is reaction was also shown to have significant impacts on ozone, OH and HO2
in the polluted planetary boundary layer (PBL). The sensitivity of these r
esults to the different reaction rate probabilities (gamma) and particle su
rface areas was also examined, Results are then evaluated to find the combi
nation of gamma and surface areas that would mostly likely occur in the PBL
within the limitations of the model. (C) 2001 Elsevier Science Ltd. All ri
ghts reserved.