A. Feilberg, R. Kamens, M. Strommen
Apr 1, 1999
Citations
3
Influential Citations
52
Citations
Journal
Atmospheric Environment
Abstract
Abstract A nitronaphthalene kinetics mechanism has been implemented and added to the photochemical smog mechanism, Carbon Bond-4. This mechanism was used to simulate the formation, decay, and partitioning of 1- and 2-nitronaphthalene and compare it to outdoor smog chamber data. The results suggest that these types of mechanisms can be used to model nitronaphthalene formation and decay in regional airmasses. The partitioning experiments were conducted at night. The sampling system consisted of two Teflon impregnated glass fiber filters followed by a gas-phase denuder. Evidence is provided that partitioning equilibrium is maintained even when the gas-phase components are decaying rapidly under sunlight. The photolysis rate constants were determined relative to kNO2 to be 0.07×kNO2 and 0.005×kNO2 for 1- and 2-nitronaphthalene, respectively. Our results confirm that gas-phase photolysis is the major degradation pathway for 1-nitronaphthalene, whereas for 2-nitronaphthalene other pathways may also be important. The photochemical formation of nitronaphthalenes was studied using a mixture of naphthalene, propylene, NOx, and diesel particles. 2-nitronaphthalene was observed to build up to higher levels than 1-nitronaphthalene, as the photodegradation of the latter was faster. Additionally, as a part of this study 1-nitronaphthalene has been identified and quantified in diesel exhaust.