Lindskog A
Environ Health Perspect. 1983 Jan;47:81-4. doi: 10.1289/ehp.834781.
Individual PAH are shown to undergo chemical transformation when exposed to gases such as NO2, O3 and SO3. The possibility of artifact formation during sampling in stacks and in ambient air is discussed. PAH on soot, formed in a smoke gas generator, and exposed to NO chi and SO chi in a thermostated oven were degraded as a result of the sampling technique. Addition of NO2 (1 ppm) or gaseous HNO3 (120 ppb) during ambient air sampling caused degradation of individual PAH on particles and formation of the corresponding mononitro-PAH. Addition of 200 ppb O3 or 100 ppb gaseous HNO2 had no detectable effect. Thus, artifact formation can occur as a result of the presence of NO2, HNO3, or SO chi both in stack gas sampling and in sampling of PAH on particles in ambient air.
研究表明,当多环芳烃(PAH)暴露于二氧化氮(NO₂)、臭氧(O₃)和三氧化硫(SO₃)等气体中时会发生化学转化。本文讨论了在烟囱和环境空气中采样期间形成假象的可能性。在烟雾气体发生器中形成并在恒温烘箱中暴露于一氧化氮(NO)和二氧化硫(SO)的烟灰上的多环芳烃,由于采样技术的原因而降解。在环境空气采样期间添加二氧化氮(1 ppm)或气态硝酸(120 ppb)会导致颗粒上的单个多环芳烃降解并形成相应的单硝基多环芳烃。添加200 ppb臭氧或100 ppb气态亚硝酸没有可检测到的影响。因此,在烟囱气体采样以及环境空气中颗粒上多环芳烃的采样过程中,由于存在二氧化氮、硝酸或二氧化硫,可能会形成假象。